Swimming pool technology 2013 promaqua by Silkwaters Media

Swimming pool technology 2013 The Ultimate in Performance

Contents Swimming pool technology 1

Swimming Pool Dosing Systems DULCODOS® Pool 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 1.11

1-1

1-1 1-2 1-4 1-6 1-8 1-10 1-12 1-14 1-16 1-18 1-19

Metering sets

2-1

Ozone plants

3-1

Disinfection and oxidation process

Individual devices and accessories

General information on water treatment

2.1 2.2 2.3 2.4

3.1 3.2 3.3 3.4 3.5 3.6 3.7

4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 4.13 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 6.1 6.2 6.3 6.4 6.5 6.6

1ProMinent® Chemical Resistance List 1

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool DULCODOS® Pool PRC DULCODOS® Pool DR2, DC2, DC4 DULCODOS® Pool PC5, PC6, PC7, PC8, PC9, PCA DULCODOS® Pool DO2, DH2 DULCODOS® Pool DP1 DULCODOS® Pool DR1, DC1, DV1, DB1 DULCODOS® Pool DH1 DULCODOS® Pool DO1, DL1, DT1 Swimming pool metering systems DSMa for swimming pools with several pools Configuration examples

Metering sets for pH value adjustment and disinfection Metering sets for metering of flocculants Metering sets for metering fragrances Options Ozone for swimming pool water OZONFILT® OZVa Compressors, accessories OZONFILT® Compact OMVa Accessories For Bono Zon® Ozone Plants OZONFILT® OZMa Safety accessories for ozone systems

CHLORINSITU® Electrolysis Systems Membrane electrolysis systems CHLORINSITU® III - IV compact Gas Warning Device for Monitoring Chlorine Gas Accessories CHLORINSITU® II Tubular Cell Electrolysis Systems CHLORINSITU® III Membrane Electrolysis Systems CHLORINSITU® IV Membrane Electrolysis Systems CHLORINSITU® IV plus Membrane Electrolysis Systems Dulcodes UV treatment systems Dulcodes S UV Systems for Chloramine Control in Pool Water Bello Zon® CDLb Chlorine Dioxide Plant Bello Zon® Chlorine Dioxide Plants Type CDVc Safety equipment

Peristaltic pumps Metering pumps Accessories for metering pumps Measuring and control equipment Sensors Accessories for sensors Test devices Compensating tank (surge water tank)

Swimming pool water treatment Measuring and control system diagram Metering station "Reduction/Energy saving" application solution "W-LAN remote display" application solution "Immersion tank" application solution

2-2 2-5 2-7 2-7

3-1 3-1 3-4 3-6 3-7 3-9 3-17

4-1

4-1 4-2 4-4 4-4 4-5 4-6 4-7 4-8 4-10 4-12 4-14 4-18 4-21

5-1

5-1 5-7 5-24 5-31 5-54 5-58 5-63 5-66

6-1

6-1 6-3 6-5 6-6 6-7 6-8

Swimming pool technology 7

ProMinent庐 Chemical Resistance List

7-1

7.2

7-1 7-10

7.1

Resistance of Materials Used in Liquid Ends to the Chemicals Most Frequently Used Pump Specification Data

Editor: ProMinent Dosiertechnik GmbH Im Schuhmachergewann 5-11 69123 Heidelberg 路 Germany +49 6221 842-0 info@prominent.com www.prominent.de Technical changes reserved. You can view our general terms and conditions on our home page.

1 1.1

Swimming Pool Dosing Systems DULCODOS® Pool Swimming Pool Dosing Systems DULCODOS® Pool 1.0.1Swimming pool technology 2013

DULCODOS® Pool metering systems are specifically designed for the treatment of swimming pool water. Pre-mounted and ready for use, they take over the task of pH value correction and disinfection – whether using chlorine or active oxygen. Different designs and a comprehensive extension program provide the appropriate solution for every application. DULCODOS® Pool metering systems are fitted with all necessary components that are coordinated perfectly with each other, mounted on one or several panels: 쮿 Sensors 쮿 Controllers 쮿 Metering pumps Advantages 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Supplied ready for use Simple, quick assembly Graded programme Versatile possibilities for extension Excellent disinfection performance Precise metering Excellent safety Extensive accessories

Applications Automatic disinfection and pH value adjustment for 쮿 쮿 쮿 쮿

1.3.2013

Private swimming pools Hotel swimming pools Therapy pools Public swimming pools

Swimming pool technology 2013

1-1

1 1.2

Swimming Pool Dosing Systems DULCODOS® Pool DULCODOS® Pool PRC, PCC

Pool_PRC

Complete system for pH value adjustment and disinfection using liquid chlorine products, comprising: 쮿 Sensors for pH value and redox potential 쮿 2 x 1-channel swimming pool controller Compact with control functions for pH value and redox potential and integral priming function 쮿 In-line probe housing with sample water filter and flow control.

1-2

Dimensions Weight

595 x 745 x 150 mm (W x H x D) approx. 10 kg and 6 kg, resp. (without pumps)

Connection for metering station Connection for sample water line Electrical connection

Dosing valves with 1/2" screw-in-thread 8x5 mm PE hose 230 VAC, 50 Hz alternative with Euro or Swiss connector

Recommended area of application

Private swimming pool

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identcode Ordering System, DULCODOS® Pool PRC, PCC

DSPa Measured variable PRC pH/redox (Compact) PCC pH / chlorine (Compact) Hardware-additional functions 0 Standard Software-additional functions 0 without Communication interfaces 0 without Electrical connection A 230 V, 50/60 Hz, Euro connector B 230 V, 50/60 Hz, Swiss connector Sensor equipment 0 with sensors A Measured variable PRC without sensors K Measured variable PCC without sensors Version 0 with logo 1 without logo Language D German E English F French G Czech I Italian N Dutch R Russian S Spanish Metering pumps for acids/alkalis 0 without metering pumps 1 0.8 l/h (DULCO®flex DF2a 0208) 2 1.6 l/h (DULCO®flex DF2a 0216) 3 2.4 l/h (DULCO®flex DF2a 0224) 4 1.8 l/h (alpha ALPc 1002 PPE) 5 3.5 l/h (alpha ALPc 1004 PPE) 6 1.5 l/h (Beta® BT4b 0401 PPT) 7 2.8 l/h (Beta® BT4b 0402 PPT) 8 4.5 l/h (Beta® BT4b 0404 PPT) Multi-function valve for acid/alkali pump 0 none 1 with MFV (only for alpha) Metering pumps for disinfection 0 without metering pumps 1 0.8 l/h DULCO®flex up to 45/10 m3/h circulation HB/FB* 2 1.6 l/h DULCO®flex for up to 100/20 m3/h circulation HB/FB* 3 2.4 l/h DULCO®flex for up to 140/30 m3/h circulation HB/FB* 4 1.8 l/h alpha for up to 100/20 m3/h circulation HB/FB* 5 3.5 l/h alpha for up to 200/40 m3/h circulation HB/FB* 6 0.9 l/h Beta® flex for up to 50/10 m3/h circulation HB/FB* 7 2.1 l/h Beta® flex for up to 125/25 m3/h circulation HB/FB* 8 3.9 l/h Beta® flex for up to 225/45 m3/h circulation HB/FB* Multi-function valve for pump Disinfection 0 none 1 with MFV (only for alpha) Installation 0 not assembled, delivery without mounting plate 1 mounted on base plate Approvals 0 CE DSPa PRC 0 0 0 A 0 0 E 1 0 1 0 1 0

1.3.2013

Calculated for 12 % sodium hypochlorite HB = indoor swimming pool FB = outdoor swimming pool

Swimming pool technology 2013

1-3

1 1.3

Swimming Pool Dosing Systems DULCODOS® Pool DULCODOS® Pool DR2, DC2, DC4

P_DD_0037_SW

P_DD_0043_SW

Complete system for pH value adjustment and disinfection using liquid chlorine products, comprising: 쮿 Measuring cells: Type DR2: pH value and redox potential Type DC2: pH value and chlorine measuring cells (free chlorine) Type DC4: pH value and chlorine measuring cells (total chlorine) 쮿 2-channel DAC controller with control functions for pH value and redox potential or PH value and chlorine concentration respectively 쮿 In-line probe housing with sample water filter and flow control. Dimensions

1-4

Weight

with alpha: 595 x 745 x 150 mm (W x H x D) mounting plate for measuring instruments 595 x 400 x 150 mm (W x H x D) mounting plate for pumps with DULCO®flex: 595 x 745 x 150 mm (W x H x D) approx. 10 kg and 6 kg, resp. (without pumps)

Connection for metering station Connection for sample water line Electrical connection

Metering valves with 1/2" screw-in thread 8x5 mm PE hose 230 VAC, 50 Hz alternative with Euro or Swiss connector

Recommended area of application

upscale private swimming pool

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identity code ordering system, DULCODOS® Pool DR2, DC2, DC4

DSPa Measured variable DR2 pH/ORP (DAC) DC2 pH / Free chlorine (DAC) DC4 pH / Total chlorine (DAC) Hardware-additional functions 0 Standard Software-additional functions 0 without Communication interfaces 0 without Electrical connection A 230 V, 50/60 Hz, Euro connector B 230 V, 50/60 Hz, Swiss connector Sensor equipment 0 with sensors A Measured variable DR2 without sensors B Measured variable DC2 without sensors C Measured variable DC4 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps 1 0,8 l/h (DULCO®flex DF2a 0208) 2 1,6 l/h (DULCO®flex DF2a 0216) 3 2,4 l/h (DULCO®flex DF2a 0224) 4 1,8 l/h (alpha ALPc 1002 PPE) 5 3,5 l/h (alpha ALPc 1004 PPE) 6 1,5 l/h (Beta® BT4b 0401 PPT) 7 2,8 l/h (Beta® BT4b 0402 PPT) 8 4,5 l/h (Beta® BT4b 0404 PPT) Multi-function valve for acid/alkali pump 0 without 1 with MFV (only for Beta®and alpha) Metering pumps for disinfection 0 without metering pumps 1 0.8 l/h DULCO®flex for up to 45/10 m3/h circulation HB/FB* 2 1.6 l/h DULCO®flex for up to 100/20 m3/h circulation HB/FB* 3 2.4 l/h DULCO®flex for up to 140/30 m3/h circulation HB/FB* 4 1.8 l/h alpha for up to 100/20 m3/h circulation HB/FB* 5 3.5 l/h alpha for up to 200/40 m3/h circulation HB/FB* 6 0.9 l/h Beta® for up to 50/10 m3/h circulation HB/FB* 7 2.1 l/h Beta® for up to 125/25 m3/h circulation HB/FB* 8 3.9 l/h Beta® for up to 225/45 m3/h circulation HB/FB* Multi-function valve for pump Disinfection 0 without 1 with MFV (only for Beta® and alpha) Installation 0 not assembled, delivery without mounting plate 1 mounted on base plate Approvals 0 CE DSPa DC2 0 0 0 A 0 0 E 2 0 2 0 1 0

1.3.2013

Calculated for 12 % sodium hypochlorite HB = indoor swimming pool FB = outdoor swimming pool

Swimming pool technology 2013

1-5

1 1.4

Swimming Pool Dosing Systems DULCODOS® Pool DULCODOS® Pool PC5, PC6, PC7, PC8, PC9, PCA

pk_7_105_SW

P_DD_0035_SW

Complete system for pH value adjustment and disinfection using liquid chlorine products, comprising: 쮿 Measuring cells: Type PC5: pH value and redox potential Type PC6: pH value and chlorine measuring cell (free chlorine) Type PC7: pH value, redox potential and chlorine measuring cell (free chlorine) Type PC8: pH value, redox potential, chlorine measuring cell for total chlorine and free chlorine Type PC9: pH value and chlorine measuring cell for total chlorine Type PCA: pH value, redox potential and chlorine measuring cell for total chlorine 쮿 DULCOMARIN® II compact controller with control functions for pH value, redox potential and chlorine concentration 쮿 In-line probe housing with sample water filter and flow control 쮿 with Eco mode and functional processes (optional) Dimensions

1-6

Weight

with alpha, Beta®, DF4a: 595 x 745 x 150 mm (W x H x D) plate for measuring instruments 595 x 400 x 150 mm (W x H x D) pumps with DF2a: 595 x 745 x 150 mm (B x H x T) approx. 12 kg and 7 kg, resp. (without pumps)

Connection for metering station Connection for sample water line Electrical connection

Metering valves with 1/2" screw-in thread 8x5 mm PE hose 230 VAC, 50 Hz alternative with Euro or Swiss connector

Recommended area of application

쮿 Upscale private swimming pool 쮿 Public swimming pool 쮿 Therapeutic bath

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identcode Ordering System, DULCODOS® Pool PC5, PC6, PC7, PC8, PC9, PCA

DSPa Measured variable PC5 pH / ORP (DXC) PC6 pH / free chlorine (DXC) PC7 pH / ORP / free chlorine (DXC) PC8 pH / ORP / free chlorine / total chlorine (DXC) PC9 pH / total chlorine (DXC) PCA pH / ORP / total chlorine (DXC) Hardware-additional functions 0 Standard A 4 Standard signal outputs 0/4-20mA measured value (A-module) F Functional module (F-module) Software-additional functions 1 Videographic recorder with measuring data archiving incl. SD-Card Communication interfaces 0 without 5 Embedded Web Server, LAN 6 OPC server + embedded web server Electrical connection A 230 V, 50/60 Hz, Euro connector B 230 V, 50/60 Hz, Swiss connector Sensor equipment 0 with sensors A Measured variable PC5 without sensors E Measured variable PC6 without sensors F Measured variable PC7 without sensors G Measured variable PC8 without sensors H Measured variable PC9 without sensors I Measured variable PCA without sensors Version 0 with logo 1 without logo Language D German E English F French I Italian P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps 1 0.8 l/h (DULCO®flex DF2a 0208) 2 1.6 l/h (DULCO®flex DF2a 0216) 3 2.4 l/h (DULCO®flex DF2a 0224) 4 1.8 l/h (alpha ALPc 1002 PPE) 5 3.5 l/h (alpha ALPc 1004 PPE) A 1.5 l/h (Beta® CANopen BT4a 0401 PPE) B 2.8 l/h (Beta® CANopen BT4a 0402 PPE) C 5.3 l/h (Beta® CANopen BT4a 0405 PPE) D 1.5 l/h (DULCO®flex DF4a 04015 CAN Bus) E 6.0 l/h (DULCO®flex DF4a 03060 CAN Bus) Multi-function valve for acid/alkali pump 0 without 1 with MFV (only for Beta® and alpha) Metering pumps for disinfection 0 without metering pumps 1 0.8 l/h DULCO®flex for up to 45/10 m3/h circulation HB/FB* 2 1.6 l/h DULCO®flex for up to 100/20 m3/h circulation HB/FB* 3 2.4 l/h DULCO®flex for up to 140/30 m3/h circulation HB/FB* 4 1.8 l/h alpha for up to 100/20 m3/h circulation HB/FB* 5 3.5 l/h alpha for up to 200/40 m3/h circulation HB/FB* A 0.9 l/h Beta® for up to 50/10 m3/h circulation HB/FB* B 2.1 l/h Beta® for up to 125/25 m3/h circulation HB/FB* C 4.2 l/h Beta® for up to 250/50 m3/h circulation HB/FB* D 1.5 l/h DULCO®flex DF4a CAN Bus E 6.0 l/h DULCO®flex DF4a CAN Bus Multi-function valve for pump Disinfection 0 without 1 with MFV (only for Beta® and alpha) Installation 0 not assembled, delivery without mounting plate 1 mounted on base plate Approvals 0 CE DSPa PC7 0 1 5 A 0 0 E 2 0 2 0 1 0

* Calculated for 12 % sodium hypochlorite 1.3.2013

HB = indoor swimming pool FB = outdoor swimming pool

Swimming pool technology 2013

1-7

1 1.5

Swimming Pool Dosing Systems DULCODOS® Pool DULCODOS® Pool DO2, DH2

P_DD_0042_SW

P_DD_0044_SW

Complete system for pH value adjustment and for chlorine-free disinfection using active oxygen, comprising: 쮿 Measuring cells: Type DO2: pH value sensor Type DH2: pH value and H2O2 sensor 쮿 Type DO2: DAC controller with control functions for pH value and timer function for control of the active oxygen pump 쮿 Type DH2: DAC controller with control functions for pH value and control function for active oxygen concentration 쮿 In-line probe housing with sample water filter and flow control Dimensions

1-8

Weight

with alpha, Beta®: 595 x 745 x 150 mm (W x H x D) mounting plate for measuring instruments 595 x 400 x 150 mm (W x H x D) mounting plate for pumps with DF2a: 595 x 745 x 150 mm (B x H x T) approx. 12 kg and 7 kg, resp. (without pumps)

Connection for metering station Connection for sample water line Electrical connection

Metering valves with 1/2" screw-in thread 8x5 mm PE hose 230 VAC, 50 Hz alternative with Euro or Swiss connector

Recommended area of application

Private swimming pool

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identity code ordering system, DULCODOS® Pool DO2, DH1

DSPa Measured variable DO2 pH / Timer control H2O2 (DAC) DH1 pH / H2O2 (2 x D1C) Hardware-additional functions 0 Standard Software-additional functions 0 without Communication interfaces 0 without Electrical connection A 230 V, 50/60 Hz, Euro connector B 230 V, 50/60 Hz, Swiss connector Sensor equipment 0 with sensors 1 Measured variable DO2 without sensors D Measured variable DH1 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French G Czech H Swiss I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps 1 0,8 l/h (DULCO®flex DF2a 0208) 2 1,6 l/h (DULCO®flex DF2a 0216) 3 2,4 l/h (DULCO®flex DF2a 0224) 4 1,8 l/h (alpha ALPc 1002 PPE) 5 3,5 l/h (alpha ALPc 1004 PPE) 6 1,5 l/h (Beta® BT4b 0401 PPT) 7 2,8 l/h (Beta® BT4b 0402 PPT) 8 4,5 l/h (Beta® BT4b 0404 PPT) Multi-function valve for acid/alkali pump 0 without 1 with MFV (only for Beta® and alpha) Metering pumps for disinfection 0 without metering pumps 1 0,8 l/h (DULCO®flex DF2a 0208) 2 1,6 l/h (DULCO®flex DF2a 0216) 3 2,4 l/h (DULCO®flex DF2a 0224) 4 1,8 l/h (alpha ALPc 1002 NPB) 5 3,5 l/h (alpha ALPc 1004 NPB) 6 0,9 l/h (Beta® BT4b 0401 NPB) 7 2,1 l/h (Beta® BT4b 0402 NPB) 8 3,9 l/h (Beta® BT4b 0404 NPB) Multi-function valve for pump Disinfection 0 without 1 with MFV (only for Beta® and alpha) Installation 0 not assembled, delivery without mounting plate 1 mounted on base plate Approvals 0 CE DSPa DO2 0 0 0 A 0 0 E 2 0 3 0 1 0

1.3.2013

Swimming pool technology 2013

1-9

Swimming Pool Dosing Systems DULCODOS® Pool

1.6

DULCODOS® Pool DP1 System for pH value adjustment, comprising: 쮿 Measuring cell for pH value 쮿 DAC controller with control function for pH value 쮿 In-line probe housing with sample water filter and flow control Technical data: 쮿 Dimensions: 595 x 745 x 150 mm (W x H x D) 쮿 Weight: approx. 6 kg Connections: 쮿 Point of injection: Injection valve with 1/2" screw thread 쮿 Sample water line: 8 x 5 mm PE hose 쮿 Electrics: 230 VAC, 50 Hz, either with standard European or Swiss plug Recommended application: 쮿 Private and public swimming pools

P_DD_0038_SW

1-10

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identity code ordering system, DULCODOS® Pool, DP1

DSPa Measured variable DP1 pH (DAC) Hardware-additional functions 0 Standard Software-additional functions 0 none Communication interfaces 0 none Electrical connection A 230 V, 50/60 Hz, European standard plug B 230 V, 50/60 Hz, Swiss plug Sensor equipment 0 with sensors 1 Measured variable DP1 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French G Czech H Swiss I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps 1 0.8 l/h (DULCO®flex DF2a 0208) 2 1.6 l/h (DULCO®flex DF2a 0216) 3 2.4 l/h (DULCO®flex DF2a 0224) 4 1.8 l/h (alpha ALPc 1002 PPE) 5 3.5 l/h (alpha ALPc 1004 PPE) 6 0.9 l/h (Beta® BT4b 0401 PPT) 7 2.1 l/h (Beta® BT4b 0402 PPT) 8 4.2 l/h (Beta® BT4b 0404 PPT) Multi-function valve for acid/alkali pump 0 none 1 with MFV (only for Beta® and alpha) Metering pumps for disinfection 0 without metering pumps Multi-function valve for pump Disinfection 0 none Installation 0 supplied loose without assembly plate 1 mounted on a base plate Approvals 0 with CE mark DSPa DP1 0 0 0 A 0 0 E 1 0 0 0 1 0

1.3.2013

Swimming pool technology 2013

1-11

Swimming Pool Dosing Systems DULCODOS® Pool

1.7

DULCODOS® Pool DR1, DC1, DV1, DB1 System for disinfection with liquid chlorine / bromine products, comprising: 쮿 Measuring cells 쮿 쮿 쮿 쮿

Type DR1: Redox potential Type DC1: Chlorine measuring cell (free chlorine) Type DV1: Chlorine measuring cell (total chlorine) Type DB1: Bromine measuring cell (total chlorine)

쮿 DAC controller with control function 쮿 In-line probe housing with sample water filter and flow control Technical data: 쮿 Dimensions: 595 x 745 x 150 mm (W x H x D) 쮿 Weight: approx. 6 kg Connections: 쮿 Point of injection: Injection valve with 1/2" screw thread 쮿 Sample water line: 8 x 5 mm PE hose 쮿 Electrics: 230 VAC, 50 Hz, either with standard European or Swiss plug Recommended applications: 쮿 Private and public swimming pools

P_DD_0041_SW

1-12

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identity code ordering system, DULCODOS® Pool DR1, DC1, DV1, DB1

DSPa Measured variable DR1 ORP (DAC) DC1 Free chlorine (DAC) DV1 Total chlorine (DAC) DB1 Bromine (DAC) Hardware-additional functions 0 Standard Software-additional functions 0 none Communication interfaces 0 none Electrical connection A 230 V, 50/60 Hz, European standard plug B 230 V, 50/60 Hz, Swiss plug Sensor equipment 0 with sensors 2 Measured variable DR1 without sensors 3 Measured variable DC1 without sensors 4 Measured variable DV1 without sensors 5 Measured variable DB1 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French G Czech H Swiss I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps Multi-function valve for acid/alkali pump 0 none Metering pumps for disinfection 0 without metering pumps 1 0.8 l/h DULCO®flex for up to 45/10 m3/h circulation HB/FB* 2 1.6 l/h DULCO®flex for up to 100/20 m3/h circulation HB/FB* 3 2.4 l/h DULCO®flex for up to 140/30 m3/h circulation HB/FB* 4 1.8 l/h alpha for up to 100/20 m3/h circulation HB/FB* 5 3.5 l/h alpha for up to 200/40 m3/h circulation HB/FB* 6 0.9 l/h Beta® for up to 50/10 m3/h circulation HB/FB* 7 2.1 l/h Beta® for up to 125/25 m3/h circulation HB/FB* 8 3.9 l/h Beta® for up to 225/45 m3/h circulation HB/FB* Multi-function valve for pump Disinfection 0 none 1 with MFV (only for Beta® and alpha) Installation 0 supplied loose without assembly plate 1 mounted on a base plate Approvals 0 with CE mark DSPa DC1 0 0 0 A 0 0 E 0 0 1 0 1 0

1.3.2013

Calculated for 12 percent sodium hypochlorite HB = Indoor swimming pool FB = Outdoor swimming pool

Swimming pool technology 2013

1-13

Swimming Pool Dosing Systems DULCODOS® Pool

1.8

DULCODOS® Pool DH1 Complete system for chlorine-free disinfection using active oxygen, comprising: 쮿 Measuring cells: Type DH1: H2O2 sensor 쮿 DAC controller with control function for active oxygen concentration 쮿 In-line probe housing with sample water filter and flow control Technical data: 쮿 Dimensions: 595 x 745 x 150 mm (W x H x D) 쮿 Weight: approx. 12 kg or 7 kg (without pumps) Connections: 쮿 Point of injection: Injection valve with 1/2" screw thread 쮿 Sample water line: 8 x 5 mm PE hose 쮿 Electrics: 230 VAC, 50 Hz, either with standard European or Swiss plug Recommended application: 쮿 Private swimming pools

P_DD-0040_SW

1-14

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Identity code ordering system, DULCODOS® Pool DH1

DSPa Measured variable DH1 H2O2 (DAC) Hardware-additional functions 0 Standard Software-additional functions 0 none Communication interfaces 0 none Electrical connection A 230 V, 50/60 Hz, European standard plug B 230 V, 50/60 Hz, Swiss plug Sensor equipment 0 with sensors 7 Measured variable DH1 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French G Czech H Swiss I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps Multi-function valve for acid/alkali pump 0 none Metering pumps for disinfection 0 without metering pumps 1 0.8 l/h (DULCO®flex DF2a 0208) 2 1.6 l/h (DULCO®flex DF2a 0216) 3 2.4 l/h (DULCO®flex DF2a 0224) 4 1.8 l/h (alpha ALPc 1002 NPB) 5 3.5 l/h (alpha ALPc 1004 NPB) 6 0.9 l/h (Beta® BT4b 0401 NPB) 7 2.1 l/h (Beta® BT4b 0402 NPB) 8 3.9 l/h (Beta® BT4b 0404 NPB) Multi-function valve for pump Disinfection 0 none 1 with MFV (only for Beta® and alpha) Installation 0 supplied loose without assembly plate 1 mounted on a base plate Approvals 0 with CE mark DSPa DH1 0 0 0 A 0 0 E 0 0 1 0 1 0

1.3.2013

Swimming pool technology 2013

1-15

Swimming Pool Dosing Systems DULCODOS® Pool

1.9

DULCODOS® Pool DO1, DL1, DT1 System for the measurement of ozone, conductivity and temperature, comprising: 쮿 Measuring cells: 쮿 Type DO1: Ozone (therapy bath) 쮿 Type DL1: Conductivity - inductive (brine baths) 쮿 Type DT1: Temperature (detection and recording) 쮿 DAC controller with control function 쮿 In-line probe housing with sample water filter and flow control (DL1 without sample water filter) Technical data: 쮿 Dimensions: 595 x 745 x 150 mm (W x H x D) 쮿 Weight: approx. 4 kg Connections: 쮿 Point of injection: Injection valve with 1/2" screw thread 쮿 Sample water line: 8 x 5 mm PE hose 쮿 Electrics: 230 VAC, 50 Hz, either with standard European or Swiss plug Recommended applications: 쮿 Private and public swimming pools

P_DD_0039_SW

1-16

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS速 Pool Identity code ordering system, DULCODOS速 Pool DO1, DL1, DT1

DSPa Measured variable DO1 Ozone (DAC) DL1 Conductivity, inductive (DAC) DT1 Temperature (DAC) Hardware-additional functions 0 Standard Software-additional functions 0 none Communication interfaces 0 none Electrical connection A 230 V, 50/60 Hz, European standard plug B 230 V, 50/60 Hz, Swiss plug Sensor equipment 0 with sensors 6 Measured variable DO1 without sensors 8 Measured variable DL1 without sensors 9 Measured variable DT1 without sensors Version 0 with logo 1 without logo Language A Swedish D German E English F French G Czech H Swiss I Italian N Dutch P Polish S Spanish Metering pumps for acids/alkalis 0 without metering pumps Multi-function valve for acid/alkali pump 0 none Metering pumps for disinfection 0 without metering pumps Multi-function valve for pump Disinfection 0 none Installation 0 supplied loose without assembly plate 1 mounted on a base plate Approvals 0 with CE mark DSPa DL1 0 0 0 A 0 0 E 0 0 0 0 1 0

1.3.2013

Swimming pool technology 2013

1-17

Swimming Pool Dosing Systems DULCODOS® Pool

1.10

Swimming pool metering systems DSMa for swimming pools with several pools

1.10.1

DULCOMARIN®II DULCO®-Net Multi-Channel Measuring and Control System Module Combinations Number and type of modules required for a given number of pools Number of filtration circuits

Central P unit DXCa module

M module

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

A Additional N module* or P module (power supply unit) 1 2 3 1 4 2 5 2 6 3 7 3 8 4 9 4 10 5 11 5 12 6 13 6 14 7 15 7 16 8

Free chlorine sensor 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Total chlorine sensor (optional) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

* No A module if metering pumps with CANopen are used. The above modules include all CAN bus connecting elements (T-distributor and spur line). The T-distributors can also be directly coupled. For distributed systems, the CAN cable must be ordered by the metre with the by-the-metre connecting kit.

CAN (by the metre) – connection kit* Connecting cable - CAN (by the metre)*

Order no. 1026589 1022160

* The CAN by-the-metre connecting kit consists of a CAN coupling M12 5P and a CAN connector M12 5P and a wiring diagram. The by-the-metre connecting cable can be configured into a cable of individual length using the CAN bythe-metre connecting kit. One CAN by-the-metre connecting kit is required for each cable to be configured. The connecting cables CAN M12 5P 0.5 m (pump 1 m) supplied with the sensors and modules should be used for the spur lines. If you have any questions, please contact our sales department. Caution: The maximum main bus length (not including stubs) should be at most 400 m.

1-18

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS速 Pool

1.11

Configuration examples

1.11.1

Configuration example A: 2-pool system Two M modules in a central unit, use of metering pumps with CANopen bus.

A Plant room B Pool 1 C Pool 2

pk_5_022_neu

1.3.2013

Swimming pool technology 2013

1-19

Swimming Pool Dosing Systems DULCODOS® Pool Measuring and control system for two filter circuits consisting of the following components: Item 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

Quantity 1 2 2 9 1 1 5 6 – – 2 2 4 4m 2

Name DULCOMARIN®II central unit DXCa W 0 0 1 M M P S EN 01 DULCOTEST® in-line probe housing DGMa 3 2 2 T 0 0 0 Chlorine sensor CLE 3-CAN-10 ppm T-distributor M12 5 pole CAN Termination resistor M12 connector Termination resistor M12 plug Connection cable - CAN M12 5-pole 0.5 m Connection cable - CAN M12 5-pole 0.3 m Connecting cable - CAN (by the metre) CAN (by the metre) – connection kit pH sensor PHES 112 SE ORP sensor RHES-Pt-SE Cable combination coax 2 m- SN6 - pre-assembled* Signal lead, sold by the metre 2 x 0.25 mm2 Ø 4 mm Beta®/ 4 CANopen for pH correction BT4A0402PVT290UA000D00** Beta®/ 4 CANopen for disinfectant BT4A0402PVT290UA000D00** DF4a CAN for flocculant DF4aFW004015P9UA00001D10

Order no. – – 1023425 included included included included included 1022160 1026589 150702 150703 1024106 725122 – – –

* The CAN by-the-metre connecting kit consists of a CAN coupling M12 5P and a CAN connector M12 5P and a wiring diagram. The by-the-metre connecting cable can be configured into a cable of individual length using the CAN bythe-metre connecting kit. One CAN by-the-metre connecting kit is required for each cable to be configured. The connecting cables CAN M12 5P 0.5 m (pump 1 m) supplied with the sensors and modules should be used for the spur lines. ** Suggested configurations Caution: The maximum main bus length is 400 m

1-20

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool

1.11.2

Configuration example B: Multi-pool system Multi-pool system with measuring and control units for 4 pools.

AC_SW_0004_SW4

1 2 3

Central unit M module N module For identity codes, please refer to pages → 1-22 and → 1-23 Components of the DSMa for a multi-pool system 쮿 Central unit DXCa 쮿 Measuring modules 쮿 optionally N modules for power supply (an N module for 3 filter circuits respectively)

Central unit DXCa a central unit is configured accordingly, depending on the application. The following versions are available: Type DULCOMARIN® II central unit Central unit with web server Central unit with web server and OPC

DXCaW00100PSDE01 DULCOMARIN® II DXCaW05100PSDE01 DULCOMARIN® II DXCaW06100PSDE01 DULCOMARIN® II

Possible Configurations Type Central unit with web server Measuring module DSMaPC7MO0A0DE010 Measuring module DSMaPC7MO0A0DE010 Measuring module DSMaPC7MONA0DE010 with integrated N module Measuring module DSMaPC7MO0A0DE010

1.3.2013

Swimming pool technology 2013

1-21

Swimming Pool Dosing Systems DULCODOS速 Pool Identity code for DSMa without N module

DSMa Measured variables PC5 pH / ORP PC6 pH / free chlorine PC7 pH / ORP / free chlorine PC8 pH / ORP / free chlorine / total chlorine PC9 pH / total chlorine PCA pH / ORP / total chlorine Module 1 M M module Module 2 0 none G G module I I module R R module A A module Module 3 (power supply for CAN bus) 0 none N N module (an N module can feed a maximum of 3 filter circuits) Electrical connection A 230 V, 50/60 Hz, standard Euro plug B 230 V, 50/60 Hz, Swiss plug Sensor equipment 0 with sensors A Measured variable PC5 without sensors E Measured variable PC6 without sensors F Measured variable PC7 without sensors G Measured variable PC8 without sensors H Measured variable PC9 without sensors I Measured variable PCA without sensors Language 00 none DE German EN English ES Spanish FR French IT Italian Design 0 with logo 1 without logo Assembly 0 supplied loose without mounting plate 1 assembled on a base plate Certification 0 with CE mark DSMa PC7 M 0 0 A 0 EN 0 1 0

1-22

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS速 Pool Identity code for DSMa with N module

N module configured

1.3.2013

Swimming pool technology 2013

1-23

Swimming Pool Dosing Systems DULCODOS速 Pool

1.11.3

1 2 3 4 5 6

Configuration example C: Multi-pool system with metering sets for 5 pools

Central unit M module N module Metering set for disinfection Metering set for flocculation Metering set for pH value correction

AP_SW_0003_SW

1-24

Swimming pool technology 2013

1.3.2013

Swimming Pool Dosing Systems DULCODOS® Pool Components of the DSMa for a multi-pool system 쮿 쮿 쮿 쮿

Central unit DXCa Measuring modules optionally N modules for power supply (an N module for 3 filter circuits respectively) Metering sets for disinfection, flocculation and pH value correction

Possible Configurations Quantity 1 1 1 1 1 1 1 1 1

1.3.2013

Type Central unit with web server Measuring module DSMaPC7M00A0DE010 Measuring module DSMaPC7M0NA0DE010 with integrated N module Measuring module DSMaPC7M00A0DE010 Measuring module DSMaPC7M0NA0DE010 with integrated N module Measuring module DSMaPC7M00A0DE010 Metering set for disinfection 5.3 l with solenoid metering pump Beta®, CAN Metering set for flocculation 1.5 l with peristaltic pump DF4, CAN Metering set for pH value correction 2.8 l with solenoid metering pump Beta®, CAN

Swimming pool technology 2013

Order no.

1041560 1043054 1041559

1-25

Metering sets 2.0.1Swimming 2Metering sets pool technology 2013 2.0.2www.prominent.com

ProMaqua® metering sets contain all of the necessary, perfectly matched to each other, components for metering from 5 to 50 l disposable containers (supplied as separately ordered individual components): 쮿 쮿 쮿 쮿

Metering pump Injection valve Foot valve or suction lance Metering and suction line

The following metering sets are available: 쮿 for pH value adjustment and disinfection 쮿 for flocculants 쮿 for fragrances Metering sets summary table Application

pump

Acid

Chlorine Flocculant

Fragrance

Performance

pH/chlorine pH Chlorine pH/chlorine pH/chlorine pH/chlorine pH/chlorine pH/chlorine pH/chlorine Flocculation Flocculation Flocculation Flocculation Flocculation Fragrance

DF2a DF3a + pH sensor DF3a + RH sensor DF4a manual/external DF4a CAN Beta® Beta® CAN delta® PVDF Sigma/ 1 S1Ca PVDF DF4a DF4a CAN Beta® Beta® CAN gamma/ L DF3a

x x – x x x x x x – – – – – –

x – x x x x x x x – – – – – –

– – – – – – – – – – – – – – x

0.8 - 2.4 l/h 1.6 l/h 1.6 l/h 1.5 - 12 l/h 1.5 - 12 l/h 1.5 - 4.5 l/h 1.5 - 5.3 l/h 7.5 - 75 l/h 17.5 - 120 l/h 1.5 - 12 l/h 1.5 - 12 l/h 0.74 - 1.1 l/h 0.74 - 1.1 l/h 0.74 - 1.1 l/h 0.8 - 2.4 l/h

– – – – – – – – – x x x x x –

Medium operating pressure 1.5 bar 1.5 bar 1.5 bar 4 - 2 bar 4 - 2 bar 4 bar 4 bar 25 - 2 bar 16 - 2 bar 4 - 2 bar 4 - 2 bar 10 - 16 bar 10 - 16 bar 10 - 16 bar 1.5 bar

See page → 2-2 → 2-2 → 2-2 → 2-3 → 2-3 → 2-4 → 2-4

→ 2-5 → 2-5 → 2-5

→ 2-7

The benefits for you: 쮿 쮿 쮿 쮿

1.3.2013

Functional units ready for use Coordinated interfaces Simple to order Immediate delivery

Swimming pool technology 2013

2-1

Metering sets

2.1

Metering sets for pH value adjustment and disinfection

2.1.1

pH or chlorine metering design with peristaltic pump DULCO®flex DF2a Complete set comprising DULCO®flex hose pump with injection valve, PVC suction lance for 5 to 50 litre disposable containers (50 mm container opening), with mains cable, standard European plug for connecting to measuring and control units, as well as PVC metering line (10 m, 4/10 mm). Feed rate at max. pressure l/h 0.8 1.6 2.4

Max. Pressure bar 1.5 1.5 1.5

Order no. 1041520 1041521 1041522

P_DX_0012_SW

2.1.2

pH or chlorine metering design with peristaltic pump DULCO®flex, pH or RH sensor 쮿 쮿 쮿 쮿 쮿 쮿

Capacity 1.6 l/h at max. 1.5 bar back pressure Hose material Viton® Control with auxiliary functions Virtually silent operation Self-priming against max. 1.5 bar Spring-mounted rollers for uniform roller pressure and increased service lifetime of the tube

The DULCO®flex is equipped with a pH or ORP measuring device. Acids, alkalis or disinfectants can be metered in line with the measured value. The current pH/ORP value is shown on the display. Setpoints, limit values and safety functions can be set, thanks to the simple operation of the system. Included in the scope of supply: 1 x metering pump, pH or ORP sensor, spud clamp, injection valve, PVC hose (10 m, 4/10 mm), coaxial cable, buffer solutions.

DULCO®flex pH DULCO®flex ORP

Feed rate at max. pressure l/h 1.6 1.6

Max. Pressure bar 1.5 1.5

Order no. 1041592 1041654

P_PM_0010_SW

2-2

Swimming pool technology 2013

1.3.2013

2 2.1.3

Metering sets pH or chlorine metering design with peristaltic pump DULCO®flex DF4a The hose pump DULCO®flex DF4a has been specifically developed for metering chemicals. Typical applications include swimming pools and whirlpools. Complete set comprising DULCO®flex hose pump DF4a with injection valve, PVC suction lance for 5 to 50 litre disposable containers (50 mm container opening), with mains cable, standard European plug for connecting to measuring and control units, as well as PVC metering line (10 m, 4/10 mm). Feed rate at max. pressure l/h 1.5 1.5 6.0 6.0 12.0 12.0

Control

Max. Pressure

manual external manual external manual external

bar 4.0 4.0 2.5 2.5 2.0 2.0

Order no. 1041568 1041569 1041570 1041571 1041572 1041573

Advantages 쮿 Simple and convenient operation using language-neutral user guidance and programming via four buttons on the front 쮿 Safe operation by direct input of the circulation capacity and required concentration 쮿 Flexible to retrofit thanks to straightforward installation - also ideal for retrofitting into existing systems 쮿 More efficient operation, for instance due to night setback 쮿 Service-friendly design makes changing the tube easier 쮿 Proportional adaptation of metering capacity by voltage and current input (optional = CAN bus) Features 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

2.1.4

Low-noise speed controllable multiphase motor with ball bearing drive shaft No mechanical drive, thus long operating life 100% switching time, operating pressure of up to 4 bar is possible Stepless setting of the metering capacity from 1 % to 100 % Metering capacities of 1.5, 6.0 or 12.0 l/h are shown in the display and can be set reproducibly Operating and peristaltic time counter, priming function (continuous run) Float switch input (contact 1 or 2 stage), hose fracture monitoring with fault indicating relay Switchable capacity change, for instance night setback or increased capacity

pH or chlorine version metering design with peristaltic pump DULCO®flex DF4a, CANopen Feed rate at max. pressure l/h 1.5 6.0 12.0

1.3.2013

Control CANopen CANopen CANopen

Swimming pool technology 2013

Max. Pressure bar 4.0 2.5 2.0

Order no. 1041681 1041682 1041683

2-3

Metering sets

2.1.5

pH or chlorine metering design with solenoid metering pump Beta速 Complete set comprising a microprocessor-controlled Beta速 metering pump with PVDF dosing head, pressure limitation to 4 bar 180 strokes/min., PTFE injection valve, wall brackets, PVC suction lance with pre-warning and empty signal for 5 to 50 litre disposable tanks (50 mm tank opening), 5 m signal cable for connection to measuring and control units, as well as PVC metering line (10 m, 4/10 mm) and bleed line (3 m, 4/6 mm). Feed rate at max. pressure l/h 1.5 2.8 4.5

Max. Pressure bar 4.0 4.0 4.0

Order no. 1041523 1041554 1041556

P_BE_0049_SW

2.1.6

pH or chlorine metering design with solenoid metering pump Beta速, CANopen Feed rate at max. pressure l/h 1.5 2.8 5.3

2-4

Swimming pool technology 2013

Max. Pressure bar 4.0 4.0 4.0

Order no. 1041558 1041559 1041560

1.3.2013

Metering sets

2.2

Metering sets for metering of flocculants

2.2.1

Flocculant design with peristaltic pump DULCO®flex DF4a The hose pump DULCO®flex DF4a has been especially developed for metering flocculents. It is used wherever flocculents are metered constantly and precisely to the water to be treated. Typical applications include swimming pools and whirlpools. Complete set comprising DULCO®flex peristaltic pump DF4a with metering valve, PVC suction lance for 5 to 50 litre disposable containers (50 mm container opening), with mains cable, standard European plug for connecting to measuring and control units, as well as PVC metering line (10 m, 4/10 mm). Feed rate at max. pressure l/h 0,35 1,5 6 12

Max. Pressure bar 4,0 4,0 2,5 2,0

Order no. 1044579 1041585 1041586 1041588

Features 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

2.2.2

Flocculant design with peristaltic pump DULCO®flex DF4a, CANopen Feed rate at max. pressure l/h 1.5 6 12

2.2.3

1.3.2013

Max. Pressure bar 4.0 2.5 2.0

Order no. 1043054 1043055 1043056

Flocculant designs

Swimming pool technology 2013

2-5

Metering sets with solenoid metering pump Beta速 Complete system for metering flocculants, comprising a Beta速 metering pump for accurate individual stroke adjustment, PVDF dosing head with bleed valve, PTFE metering valve, wall brackets, PVC suction lance with pre-warning and empty signal for 5 to 50 litre disposable tanks (50 mm tank opening), 5 m signal cable for locking to the circulation pump as well as a PVC metering line (10 m, 4/10 mm) and PVC bleed line (3 m, 4/6 mm). Feed rate at max. pressure l/h 0.74 1.1

Max. Pressure bar 10.0 16.0

Order no. 1043051 1043052

P_BE_0049_SW

2-6

Swimming pool technology 2013

1.3.2013

Metering sets

2.3

Metering sets for metering fragrances

2.3.1

Fragrance metering design with peristaltic pump DULCO®flex DF3a 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Feed rate range 0.4 - 2.4 l/h at max. 1.5 bar backpressure Hose material Viton®, used specifically for metering of fragrances in wellness applications Control of two further peristaltic pumps for different fragrances Control of a solenoid valve for the diluent water Almost silent operation Self-priming against max. 1.5 bar Sprung rollers for constant rolling pressure and increased service life of the hose

The DULCO®flex DF3a was specifically developed for metering fragrances in wellness facilities. This pump can be used wherever fragrances are metered in small quantities. Typical areas of application include the aroma infusion of douse water in saunas, steambaths, and whirlpools. The metering pump is equipped with a process timer which can control two further peristaltic pumps for other essences. Since the essences used in saunas must not be used undiluted on the oven, the DF3a is equipped with three relays for controlling the diluent water. To save essences when the sauna is not in use, the pump features a contact input to which e.g. a door contact or motion sensor can be connected. This ensures metering of fragrances only when the sauna is in use. Complete set comprising DULCO®flex hose pump DF3a with injection valve, PVC suction lance for 5 to 50 litre disposable containers (50 mm container opening), with mains cable, standard European plug and PVC metering line (10 m, 4/10 mm).

P_DX_0046_SW

2.4

Feed rate at max. pressure l/h 0.8 2.4

Max. Pressure bar 1.5 1.5

1041589 1041591

Options PVDF multifunctional valve with relief, pressure retention and bleeding function PVC metering lance with shut-off valve 10 x 4, screw thread 1/2 " Components mounted on a wall assembly panel 500 x 600 mm with receiver tank, pump and Flow Control dosing monitor

1.3.2013

Order no.

Swimming pool technology 2013

Order no. 791715 1021529 DKFL1/200

2-7

3 3.1

Ozone plants Ozone for swimming pool water 3.0.1Swimming pool technology 2013

The use of ozone drastically solves the problems of the build-up of chloramine or THM experienced with conventional water treatment. It is the most intensive oxidising agent approved for use in water treatment processes and is usually added before the filter stage. With this system, undesirable substances in the water, such as chloramine and turbidity, are oxidised and retained in the filter. To successfully use ozone in swimming pool water treatment, it must be added in adequate quantities and, above all, dissolved in the water. This is why a high concentration is needed when generating ozone. The addition of chlorine is also necessary when using ozone for safe disinfection, as ozone must not be present in the pool water. The result is much clearer water without a typical indoor swimming pool odour. Moreover, the content of trihalomethanes significantly drops below the limit values. The use of ozone in swimming pool technology is particularly valuable as 쮿 the water does not smell, the air indoors is pleasant and healthy 쮿 the clarity of the water improves considerably due to the flocculating effect of the ozone and 쮿 the ozone decomposes on reacting with oxygen, a desirable factor in the water. The use of ozone in therapy pools is a requirement in Germany.

3.2

OZONFILT® OZVa

3.2.1

OZONFILT® OZVa OZONFILT® OZVa ozone plants have been designed as pressurised plants, in which the operating gas – air or oxygen – is fed into the ozone generator under pressure. The ozone is generated using mediumfrequency high voltage and is primary current controlled. The introduction of PCC (primary current controlled) technology, specially developed in-house by ProMaqua, provides complete protection for the electrical components (high-voltage transformer and power stage) and also permits the correct digital display of the ozone feed rate in “grams/hour”. As a result, any required ozone volume between 3 and 100 % of the nominal capacity can be set reproducibly, and largely independently of voltage and pressure fluctuations. The use of an integrated pressure swing dryer and a dielectric with optimum thermal conductivity makes the plant extremely compact. The unique design of the generator ensures outstanding cooling performance with low cooling water consumption and removes the heat produced quickly before the ozone produced can decompose due to excessive heat. Operation under pressure means that the ozone generated can be introduced directly into water systems with back pressures of up to 2 bar. Additional booster pumps and injectors can therefore be dispensed with in many applications. Combined with DULCOMETER® measuring and control technology and DULCOTEST® OZE ozone sensors, these systems are especially suitable for use where the operation is dependent on, and is controlled, by the measured data. Features 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

1.3.2013

Simple operation Fully equipped High efficiency Low consumption of energy and cooling water High ozone concentration thanks to operation with oxygen PCC technology ensures complete protection of electrical components Correct digital display of ozone output in g/h Reproducible setting of the desired ozone quantity between 3 and 100 % of nominal capacity

Swimming pool technology 2013

3-1

Ozone plants

3.2.2

OZONFILT® OZVa 1-4 Ozone Production Plants (Operating Gas - Air) Under nominal conditions, the OZVa 1-4 range produces up to 40 g/h of ozone from oxygen in the surrounding air at a concentration of 20 g/Nm3. Using the designated mixing devices, ozone concentrations of between 3 and 12 ppm can be achieved in the water to be treated, depending on the temperature (theoretical value at 30 or 0 °C). OZVa 1 and 2 are installed in a control cabinet for wall mounting; OZVa 3 and 4 are installed in a freestanding cabinet. An adequate supply of compressed air and a mixing device designed for the operating conditions should be provided for operation of the ozone plant. Compressed air requirements

pk_7_001_1_V2 OZONFILT® OZVa 1; capacity: 5 g/h

쮿 Oil and dust-free, non-corrosive 쮿 Constant upstream pressure of 6 - 10 bar 쮿 Required air quantities: OZVa 1: 6.2 l/min OZVa 2: 17 l/min OZVa 3: 38 l/min OZVa 4: 42 l/min Mixing device OZVa 1 can be ordered in the following versions:

pk_7_042_V2 OZONFILT® OZVa 2; capacity: 15 g/h

쮿 Transparent mixing system with flow monitor mounted at the side of the plant (see fig. pk_7_001_1_V2) 쮿 Static helical mixer mounted directly below the plant, made of PVC, with 4 helical blades (pressure drop approx. 0.4 bar at maximum throughput) (see fig. pk_7_042_V2) 쮿 Without mixing system for connection of 12/10 mm stainless steel pipes or 12/9 mm PTFE pipes OZVa 2 can be ordered in the following versions: 쮿 Static helical mixer mounted directly below the plant, made of PVC, with 4 helical blades (pressure drop approx. 0.4 bar at maximum throughput) (see fig. pk_7_042_V2) 쮿 Without mixing system for connection of 12/10 mm stainless steel pipes or 12/9 mm PTFE pipes OZVa 3 and 4 are in principle delivered without mixing system; a suitable mixing system should be ordered separately (see Fig. pk_07_043_V2). PVC or Stainless Steel Static Helical Mixer see p. → 3-5 Notes

pk_7_043_V2 OZONFILT® OZVa 3; capacity: 35 g/h

3-2

쮿 The length of ozone gas-transporting pipes and the number of joints should be kept to a minimum. All rooms with a removable joint are to be monitored with a gas detector according to applicable German accident prevention regulations. All OZONFILT® plants are equipped for fitting a gas detector, such as a GMA 36 Ozon (see accessories). 쮿 The ozone generator must be interlocked with the water flow into the metering point on all installations. 쮿 A non-return valve should be installed upstream of the OVZa to prevent any return of ozonised water into the ozone-transporting pipe.

Swimming pool technology 2013

1.3.2013

Ozone plants

Technical Data OZONFILT® OZVa 1-4 ozone production plants (operating gas - air) Environmental parameters Max. humidity of the surrounding air 85 %, non-condensing, non-corrosive, dust-free, max. ambient temperature: 40 °C Number of generator modules Ozone capacity, measured in accordance with DIN with air at 20 °C, cooling water at 15 °C Air consumption (only ozone generation) Ozone concentration in the gas phase referenced to nominal conditions Specific energy requirement at nominal capacity Power factor at full capacity Ozone connection

g/h

OZVa 1 1 5

OZVa 2 1 15

OZVa 3 2 35

OZVa 4 2 40

Nm3/h g/Nm3 *

0.25 20

0.75 20

1.75 20

2 20

Wh/g cos φ

30 0.70 integrated in mixing device or G 1/4" internal

30 0.98 integrated in mixing device or G 1/4" internal

21 0.98 G 1/4" internal

20 0.98 G 1/4" internal

* with air at 20 °C, cooling water at 15 °C ** Nm3 = m3 under standard conditions (p = 1.013x105 Pa, T = 273 K)

Electrical connection Connected load Enclosure rating

OZVa 1 230/50;60/1,2 IP 43

OZVa 2 230/50;60/3 IP 43

OZVa 3 230/50;60/6 IP 43

OZVa 4 230/50;60/6 IP 43

mm mm mm

OZVa 1 840 840 310

OZVa 2 840 805 310

OZVa 3 710 1,400 310

OZVa 4 710 1,400 310

OZVa 1 70

OZVa 2 75

OZVa 3 121

OZVa 4 121

°C bar

OZVa 1 35 0.8–2.0

OZVa 2 35 0.8–2.0

OZVa 3 35 0.8–2.0

OZVa 4 35 0.8–1.5

Nl/min

OZVa 1 6.2

OZVa 2 17

OZVa 3 38

OZVa 4 42

OZVa 3 50–100 1–5 6x4 6x4 <30 <25

OZVa 4 70–100 1–5 6x4 6x4 <30 <25

V/Hz/A

Overall dimensions (without mixer) Width Height Depth

Weight Weight

Ozone mixing Max. raw water temperature Permissible pressure at ozone outlet

Air supply Required air volume Air quality

oil and dust-free, non-corrosive, Constant upstream pressure of 6-10 bar

Cooling water Cooling water requirement Cooling water inlet pressure Cooling water inlet, PE pressure hose Cooling water outlet, open discharge Cooling water temperature at ambient temp. max. 35 °C Cooling water temperature at ambient temp. 35–40 °C Cooling water quality

1.3.2013

l/h bar mm mm °C °C

OZVa 1 10–60 1–5 6x4 6x4 <30 <25

OZVa 2 20–60 1–5 6x4 6x4 <30 <25

No tendency to form lime scale; Removable substances: < 0.1 ml/l ; Iron: < 0.2 mg/l; Manganese: < 0.05 mg/l; no corrosive components; Conductivity: > 100 µS/cm Swimming pool technology 2013

3-3

Ozone plants

3.3

Compressors, accessories

3.3.1

Compressors For OZONFILT速 OZVa 1-4 Atlas Copco LFX compressors The outstanding feature of this range of compressors is their outstanding value for money. They are equipped with active start unloading and automatic condensate discharge by solenoid valve. The compressors are not suitable for continuous operation and should only be used in less harsh operating conditions.

Technical Data Type Free air delivery rate at 7 bar Power consumption at 7 bar Number of cylinders Sound pressure level Air receiver capacity Weight Suitable for OZVa Type Type LFX 0.7 LFX 0.7 LFX 1.5 LFX 1.5

l/min W dB(A) l kg

LFX 0.7 61 530 1 62 20 44 1+2

Type 230 V / 50 Hz 230 V / 60 Hz 230 V / 50 Hz 230 V / 60 Hz

LFX 1.5 124 970 1 64 20 48 3+4 Order no. 1004458 1010719 1006343 1009638

Air filter kit Order no. 1005789

Air filter kit for Atlas Copco LFX compressors

D端rr ABK compressors The outstanding feature of this continuously rated range of compressors is their extremely robust construction, making them ideally suitable for industrial use. They are equipped with active start unloading, automatic condensate discharge by solenoid valve and an hours-run meter. PTFE coated special aluminium pistons lead to the long service life and reliability of these compressor units.

Technical Data Type Free air delivery rate at 7 bar Supply max. Supply frequency Power consumption at 7 bar Number of cylinders Sound pressure level Air receiver capacity Weight Suitable for OZVa Type Type TA-080 HA-234 3-4

l/min VAC Hz W dB(A) l kg

TA-080 62 230 50 / 60 800 1 68 25 49 1+2

HA-234 152 230 50 1,900 3 78 55 70 3+4 Order no. 1025398 1025399

Swimming pool technology 2013

1.3.2013

Ozone plants Air filter kit Order no. 1025400

Air filter kit for Dürr ABK compressors* * 1 filter kit is required per cylinder.

Compressors with refrigeration drying for operation in conditions of high humidity, and high-capacity screw compressors for connection to several ozone plants are available on request.

3.3.2

PVC or Stainless Steel Static Helical Mixer Designed for intensive mixing of gas with liquid flows. 4 helical blades ensure optimum mixing of the ozone with minimal pressure drop (0.1 bar per blade at maximum flow). The specified flow range of the static helical mixer should be complied with for optimum mixing results.

pk_7_072 Static Helical Mixer

Version with loose flanges to DIN 2501 and integrated injection point made from stainless steel with couplings for 12 mm diam. stainless steel tube, or 12/9 mm PTFE hose, using stainless steel support inserts. In addition, the injection point is fitted with a non-return valve to protect the ozone plant from reverse flowing water. The mixers are manufactured as grease-free, so they are also suitable for Types OZVa 5-7. The stainless steel version has a G 1/4“ pressure gauge tapping at the ozone mixing point. Flow m3/h 5 – 10 10 – 15 15 – 25 25 – 35 35 – 50 50 – 90 95 – 160 5 – 10 10 – 15 15 – 25 25 – 35 35 – 50

Material PVC-U PVC-U PVC-U PVC-U PVC-U PVC-U PVC-U 1.4404 1.4404 1.4404 1.4404 1.4404

Overall length mm 718 718 718 1,100 1,100 1,300 1,700 718 718 718 1,100 1,100

Connector

Order no.

DN 40 DN 50 DN 65 DN 80 DN 100 DN 125 DN 150 DN 40 DN 50 DN 65 DN 80 DN 100

1024324 1024325 1024326 1024327 1024328 1034641 1034640 1022503 1022514 1022515 1022516 1024154

Other sizes on request

Connecting parts for the gas pipeline Stainless steel pipe 12/10 mm, sold by the metre Stainless steel pipe 12/10 mm, grease-less, 1.4 m PTFE hose 12/9 mm, grease-less, sold in meters Stainless steel support inserts, 2 No. for 12/9 mm PTFE hose, grease-less Stainless steel coupling 12 mm - R 1/4, grease-less Stainless steel fitting 12 mm - R 3/8, grease-less Stainless steel 90° elbow D 12 - D 12, grease-less Stainless steel pressure relief valve, Adjustable pressure range 0.07 – 2 bar, Connection size: 1/4" NPT, 2 additional inputs for connecting 2 pressure gauges. Stainless steel back pressure valve for OZMa 1-3 A and OZMa 4-6 O, adjustable pressure range 0.5-10 bar, connector G 3/4" - DN 10, grease-free Spare parts kit for back pressure valve order no. 1039408 Stainless steel back pressure valve for OZMa 4-6 A, adjustable pressure range 0.5-10 bar, connector G 1 1/4" - DN 20, grease-free Spare parts kit for back pressure valve order no. 1039409

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Swimming pool technology 2013

Order no. 015743 1022463 037428 1025397 1025755 1034642 1022462 1029032 1039408 1039410 1039409 1039411

3-5

Ozone plants

3.4

OZONFILT® Compact OMVa

3.4.1

OZONFILT® Compact OMVa The OZONFILT® Compact OMVa is a complete, fully-assembled, ready for use ozone stage for the treatment of potable water, service water or swimming pool water in the capacity range from 5...40 g ozone/ h, and consists of the following modules: Ozone generation module (1), built in accordance with DIN 19627: The ozone is produced with an OZONFILT® OZVa in a pressure-resistant ozone generator using an electronically produced and controlled medium-frequency voltage. Ozone mixing module (2): This module consists of an ozone metering point and a downstream mixing section made of stainless steel, with a series of static mixing elements for intensive mixing of the ozone/air mix with the water to be treated. The pipelines carrying the ozone, and the pipeline from the raw water connection to the entry to the reaction tank are fabricated totally in stainless steel and have been factory pressure tested. With back pressures of up to max. 1.8 bar, no injector is required to suck out the ozone, as the ozone production takes place at positive pressure. Reaction tank module (12): The stainless steel reaction tank incorporates all the necessary fittings for water distribution and an automatic bleed valve (13) The ozone generation module (1), the residual ozone gas destructor (14) and room air monitor (16) are mounted on this tank (12). Residual ozone gas destruction module (14):

pk_7_024_V2

The residual ozone gas destruction module (14) incorporates an integrated water separator, (6) to remove traces of ozone gas in the exhaust air coming from the reaction tank (12). A connection is also available for the exhaust air from any downstream filter plant (15) that may be fitted.

A B

Room air monitoring module (16):

to filtration Raw water

The room air is monitored for traces of ozone gas by a calibrated gas warning device with an electrochemical sensor with good long-term stability. If the alarm threshold is exceeded, ozone production is stopped and an alarm emitted. A buzzer is activated at the same time.

Technical Data Type Ozone capacity Reaction tank volume Typical flow rate Operating pressure Reaction tank connection size Dimensions H x W x D Weight Connected load

g/h l m3/h bar mm kg V/Hz/A

OMVa 5-200 5 205 5 – 10 0.6 – 1.8 DN 40 2,000 x 850 x 760 200 230/50;60/2

OMVa 15-500 15 460 10 – 15 0.6 – 1.8 DN 50 2,200 x 850 x 760 250 230/50;60/3

OMVa 35-1000 35 1,080 25 – 35 0.6 – 1.8 DN 80 2,600 x 1,100 x 1,160 350 230/50;60/6

All features of the three standard versions can be adapted to specific project-related customer requirements.

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3.5

Accessories For Bono Zon® Ozone Plants

3.5.1

Accessories For Bono Zon® Ozone Plants Water trap Water trap as a vacuum breaker to prevent backflow of water into the ozone generator. Pre-assembled unit consisting of PVC loss vessel including overflow with DN 10 hose spigot, and a nonreturn valve with DN 20 PVC coupling. Order no. 1008781

Water trap

pk_7_071 Water trap

Ozone mixing Static mixer designed for intensive mixing of gas with liquid flows. Made from PVC-U with two built-in helical mixers and a mixing section matched to the throughput. pk_7_044 Static mixer

The size depends only on the quantity of water to be ozonised. Pressure rating: PN 4, other pressure ratings available on request. Connection DN 65-200: loose flanges PN 10. Recommended flow m3/h 15–25 25–35 35–50 50–90 90–160 160–250 250–350

Flange connection DN mm 65 80 100 125 150 200 200

Length mm 350 450 550 650 800 1,000 1,000

Order no. 1007841 1007842 1007843 1007864 1007865 1007866 1007867

Higher flows on request. Stainless steel version: on request

Ozone pumping devices Complete ozone pumping devices consist of booster pump, injector and mixer and are assembled to suit specific project requirements. Design and technical details on request.

Bleed valves Bleed valves made of stainless steel 1.4571 in ozone-resistant version for mounting on reaction tanks. Suitable for BONa types 1B 1A, 1D to 3A, 3D

1.3.2013

Connector

Pressure bar R 3/4" internal x R 1/2" external 0 – 6.0 R 1" internal x R 1/2" external 0 – 2.0 R 1" internal x R 3/4" external 0 – 2.0

Swimming pool technology 2013

Order no. 302525 302526 303845

3-7

3 3.5.2

Ozone plants Residual Ozone Gas Destructor Residual ozone gas destruction is used to remove traces of ozone gas from the exhaust air coming from the reaction tank. Because the exhaust air from the reaction tank still contains water, the pipework should be suitably routed so as to ensure that the water is drained off at the inlet side. A suitable drainage connection should be provided here too as the exhaust air after the residual ozone gas destructor is still up to 100 % saturated with water vapour, and because small temperature fluctuations, even on the outlet side, can lead to flowback of condensate. The exhaust air from any downstream filter plant that may be fitted can also be routed via this ozone gas destruction unit.

PVC version Residual ozone destructor based on active carbon granules in a PVC housing. Type Residual ozone destructor 3 L Residual ozone destructor 14 L Residual ozone destructor 30 L Residual ozone destructor 60 L

10 40 100 200

Ozone quantity g/h 10 40 100 200

Order no. 879022 1004267 879019 879018

Note: The stated ozone quantities refer to quantities added to the raw water. The residual ozone destructor is designed for the normal residual ozone concentration found in swimming pool applications. It should only be used in plants with air as operating gas and a maximum added quantity of 1.5 g of ozone/m3 treated water.

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Ozone plants

3.6

OZONFILT® OZMa OZMa® ozone systems are designed as pressure systems which generate ozone using compressed air or oxygen through the use of medium-frequency high voltage. The electronic power unit offers complete protection for the electrical components (high-voltage transformer and power stage) and also permits the correct digital display of the ozone output in "gram/hour". As a result, any required ozone volume between 3 and 100 % of the nominal capacity can be set reproducibly and largely independently of voltage and pressure fluctuations. The use of an integrated, self optimising (dynamic) variable pressure swing dryer ensures minimum compressed air consumption of the air systems. The use of a dielectric with optimum thermal conductivity results in an exceptionally compact system design and minimum energy consumption. The unique construction of the generator ensures outstanding cooling performance with low cooling water consumption whilst quickly removing the heat produced before the ozone produced can decompose due to excessive heat. Simple and safe operation is ensured by the industry standard programmable logic controller (PLC) and clearly arranged touch panel with data logger and screen recorder. A PROFIBUS® DP communication interface ensures ease of integration into industrial control systems. Remote diagnostics and communication are optionally available via a LAN communication interface.

P_PMA_OF_0010_SW

The automatic control of the gas flow ensures the concentration of the ozone in the gas flow is maintained constant, independently of the ozone volume transported. This reduces the quantity of operating gas to a minimum and ensures constant ozone solubility. An ozone sensor can be directly connected to the ozone measuring and control device integrated in the PLC. Thus, the ozone fed to the water can be monitored and the ozone output directly controlled. Operation under pressure means that the ozone generated can be introduced directly into water systems with back pressures of up to 2 bar. Additional booster pumps and injectors can therefore be dispensed with in many applications. Features 쮿 Simple installation thanks to compact design and single-phase power supply 쮿 Low compressed air consumption thanks to a dynamic pressure swing dryer with low priming pressure (air systems) and demand-dependent regeneration matched to the individual conditions in-situ 쮿 Minimum power and cooling water consumption thanks to new, maintenance-free generator concept 쮿 Electronic power unit with automatic ozone generation largely independent of voltage and pressure fluctuations. Thus maximum error tolerance with regard to influences from installation environment 쮿 Infinitely variable adjustment of any desired ozone quantity between 3 and 100 % of rated output 쮿 PLC with integrated ozone measurement and control 쮿 5.7" touch panel with data logger and screen recorder 쮿 PROFIBUS® DP communications interface (optionally LAN) 쮿 Easy integration of customer-specific control requirements 쮿 Automatic control of the gas volume flow ensures minimum process gas consumption at constant ozone concentration

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3-9

Ozone plants

3.6.1

OZONFILT® OZMa 1-6 A Ozone Generation Plants (Operating Gas - Air) Under nominal conditions, the OZMa 1-6 A range produces up to 420 g/h of ozone from compressed air at a concentration of 20 g/Nm3. Using the designated mixing devices, ozone concentrations of between 3 and 12 ppm can be achieved in the water to be treated, depending on the temperature (theoretical value at 30 or 0 °C). Different feature options can be achieved by combining different Identcode characteristics. The plants are pre-mounted ready for connection in a painted steel cabinet (optional stainless steel control cabinet) and need only be connected to a single-phase voltage supply, compressed air, cooling water/ waste water and ozone metering point on the customer's site. An adequate compressed air supply and a mixing device designed for the operating conditions should be integrated for operation of the ozone plant. Order Information For OZONFILT® OZMa Plants see p. → 3-16, PVC or Stainless Steel Static Helical Mixer see p. → 3-5 Requirements relating to the compressed air supply

P_PMA_OF_0010_SW

쮿 Oil and dust-free, non-corrosive, constant upstream pressure of 4.5 - 10 bar 쮿 Required air quantity: OZMa 1 A: 73 l/min OZMa 2 A: 110 l/min OZMa 3 A: 147 l/min OZMa 4 A: 220 l/min OZMa 5 A: 293 l/min OZMa 6 A: 440 l/min Mixing device All OZMa plants are in principle delivered without mixing device and a suitable mixing system should be ordered separately. When selecting a suitable mixing device, please note that the mixing of ozone is more efficient the higher the water flow in the mixing system. The mixing system should therefore be designed so that the flow of the water to be treated is at the upper range of the flow specification. PVC or Stainless Steel Static Helical Mixer see p. → 3-5 Notes on installation Keep the length of ozone gas transporting pipes and the number of joints to a minimum. All rooms with a removable joint should be monitored with a gas detector in line with the applicable German accident prevention regulations. All OZONFILT® plants are equipped for fitting a gas detector such as GMA 36 Ozon. Ozonisation adds a large amount of gas to the water of which only a small percentage can dissolve. Adequate bleeding should therefore be integrated. Because the gases discharged in this way have a considerable residual ozone concentration, appropriate residual ozone destructors should be installed. The ozone generator should be interlocked with the water flow into the metering point for all installations. A non-return valve should be installed between OZMa and the ozone metering point to prevent any return of ozonised water into the ozone-transporting pipe. Room Air Monitor see p. → 3-17, Residual Ozone Gas Destructor see p. → 3-8

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Technical Data OZONFILT® OZMa 1-3 A Ozone Generation Plants (Process Gas - Air) Ambient parameters max. 85 % relative humidity of ambient air, non-condensing, non-corrosive, dust-free, max. ambient temperature: 40 °C Number of generator modules Ozone capacity, measured in accordance with DIN with air at 20 °C, cooling water at 15 °C Air consumption (only ozone generation) Ozone concentration in the gas phase referenced to nominal conditions Specific energy requirement at nominal capacity Power factor at full capacity Ozone connection

g/h

OZMa 1A 1 70

OZMa 2A 1 105

OZMa 3A 1 140

Nm3/h g/Nm3 *

3.50 20

5.25 20

7.00 20

Wh/g cos φ

16.5 0.95 G 3/8" internal

OZMa 1A 230/50;60/10 IP 43

OZMa 2A 230/50;60/16 IP 43

OZMa 3A 230/50;60/16 IP 43

mm mm mm

OZMa 1A 1,114 1,961 405

OZMa 2A 1,114 1,961 405

OZMa 3A 1,114 1,961 405

OZMa 1A 270

OZMa 2A 280

OZMa 3A 300

°C bar

OZMa 1A 35 0.8–2.0

OZMa 2A 35 0.8–2.0

OZMa 3A 35 0.8–2.0

Nl/min

OZMa 1A 73

OZMa 2A 110

OZMa 3A 147

* Nm3= m3at standard conditions (P = 1.013x105Pa, T = 273 K)

Electrical connection Connected load Enclosure rating

V/Hz/A

Overall dimensions (without mixer) Width Height Depth

Weight Weight

Ozone mixing Max. raw water temperature Permissible pressure at ozone outlet

Air supply Required air volume Air quality

Oil and dust-free, Non-corrosive, Constant upstream pressure of 4.5 - 10 bar

Cooling water Cooling water consumption (15 °C) Cooling water consumption (30 °C) Cooling water inlet pressure Cooling water inlet, PE pressure hose Cooling water outlet, open discharge Cooling water quality

1.3.2013

l/h l/h bar mm mm

OZMa 1A 90 200 2–5 8x5 8x5

OZMa 2A 135 300 2–5 8x5 8x5

OZMa 3A 180 400 2–5 12 x 9 12 x 9

No tendency to form lime scale; Removable substances: < 0.1 ml/l ; Iron: < 0.2 mg/l; Manganese: < 0.05 mg/l; no corrosive components; Conductivity: > 100 µS/cm

Swimming pool technology 2013

3-11

Ozone plants

OZONFILT® OZMa 4-6 A Ozone Generation Plants (Process Gas - Air) Ambient parameters max. 85 % relative humidity of ambient air, non-condensing, non-corrosive, dust-free, max. ambient temperature: 40 °C Number of generator modules Ozone capacity, measured in accordance with DIN with air at 20 °C, cooling water at 15 °C Air consumption (only ozone generation) Ozone concentration in the gas phase referenced to nominal conditions Specific energy requirement at nominal capacity Power factor at full capacity Ozone connection

g/h

OZMa 4A 2 210

OZMa 5A 2 280

OZMa 6A 3 420

Nm3/h g/Nm3 *

10.50 20

14.00 20

21.00 20

Wh/g cos φ

16.5 0.95 G 3/8" internal

OZMa 4A 400/50;60/16 IP 43

OZMa 5A 400/50;60/16 IP 43

OZMa 6A 400/50;60/16 IP 43

mm mm mm

OZMa 4A 1,320 1,961 605

OZMa 5A 1,320 1,961 605

OZMa 6A 1,606 1,961 605

OZMa 4A 420

OZMa 5A 445

OZMa 6A 589

°C bar

OZMa 4A 35 0.8–2.0

OZMa 5A 35 0.8–2.0

OZMa 6A 35 0.8–2.0

Nl/min

OZMa 4A 220

OZMa 5A 293

OZMa 6A 440

* Nm3= m3at standard conditions (P = 1.013x105Pa, T = 273 K)

Electrical connection Connected load Enclosure rating

V/Hz/A

Overall dimensions (without mixer) Width Height Depth

Weight Weight

Ozone mixing Max. raw water temperature Permissible pressure at ozone outlet

Air supply Required air volume Air quality

Oil and dust-free, Non-corrosive, Constant upstream pressure of 4.5 - 10 bar

3-12

l/h l/h bar mm mm

OZMa 4A 270 600 2–5 12 x 9 12 x 9

OZMa 5A 360 800 2–5 12 x 9 12 x 9

OZMa 6A 540 1,200 2–5 12 x 9 12 x 9

No tendency to form lime scale; Removable substances: < 0.1 ml/l ; Iron: < 0.2 mg/l; Manganese: < 0.05 mg/l; no corrosive components; Conductivity: > 100 µS/cm

Swimming pool technology 2013

1.3.2013

3 3.6.2

Ozone plants OZONFILT® OZMa 1-6 O Ozone Generation Plants (Operating Gas - Oxygen) Under nominal conditions, the OZMa 1-6 O range produces up to 735 g/h of ozone from oxygen at a concentration of up to 150 g/Nm3. Using the designated mixing devices, ozone concentrations in the water to be treated of up to 90 ppm can be achieved (theoretical value at 0 °C). Ozone concentration in g/Nm3 and system feed rate in g/h can be varied depending on the operating conditions and can thus be individually matched to the application conditions. Examples for various combinations are listed in the technical data table. Different feature options can be achieved by combining different Identcode characteristics. The plants are pre-mounted ready for connection in a painted steel cabinet (optional stainless steel control cabinet) and should only be connected to a single-phase voltage supply, oxygen, cooling water/waste water and ozone metering point on the customer's site. Order Information For OZONFILT® OZMa Plants see p. → 3-16 Requirements relating to the oxygen supply 쮿 See technical data 쮿 Required gas quantities: see technical data Mixing device All OZMa plants are in principle delivered without a mixing device, a suitable mixing system should be ordered separately. When selecting a suitable mixing device, please note that the mixing of ozone is more efficient the higher the water flow in the mixing system. The mixing system should thus be designed so that the flow of water to be treated is at the upper range of the flow specification. We recommend mixing systems made of stainless steel because of the high ozone concentrations. Mixing systems made of PVC may have a reduced service life, depending on the operating conditions. PVC or Stainless Steel Static Helical Mixer see p. → 3-5 Notes on installation Keep the length of ozone gas transporting pipes and the number of joints to a minimum. All rooms with a removable joint should be monitored with a gas detector in line with the applicable German accident prevention regulations. All OZONFILT® plants are equipped for fitting a gas detector such as GMA 36 Ozon. Depending on the operating and installation conditions, it might be necessary to also monitor the room air for excessive oxygen content. The gas detector GMA 36 Oxygen can be used for this purpose. All gas-transporting accessories should be resistant to ozone and oxygen (e. g. fat-free). Ozonisation adds a large amount of gas to the water of which only a small percentage can dissolve. Adequate bleeding should therefore be integrated. Because the gases discharged this way have a considerable residual ozone concentration, appropriate residual ozone destructors should be installed. Because of the high ozone concentrations, only catalytic residual ozone destructors can be used. Active carbon-based residual ozone destructors ignite spontaneously if subjected to increased ozone concentrations. The ozone generator must be interlocked with the water flow into the metering point for all installation. A non-return valve should be installed between OZMa and ozone metering point to prevent any return of ozonised water into the ozone-transporting pipe. Room Air Monitor see p. → 3-17, Residual Ozone Gas Destructor see p. → 3-8

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Ozone plants

Technical Data OZONFILT® OZMa 1-3 O Ozone Generation Systems (Operating Gas - Oxygen) Number of generator modules Nominal ozone capacity at 100 g/Nm3 ** and cooling water at 15 °C Ozone capacity at 150 g/Nm3 * Ozone capacity at 80 g/Nm3 Specific energy requirement at nominal capacity Power factor at full capacity Ozone connection

OZMa 1 O 1 105

OZMa 2 O 1 158

OZMa 3 O 1 210

60 123 9 0.95 G 3/8" internal

90 184 9 0.95 G 3/8" internal

120 245 9 0.95 G 3/8" internal

OZMa 1 O 230/50;60/10 IP 43

OZMa 2 O 230/50;60/16 IP 43

OZMa 3 O 230/50;60/16 IP 43

mm mm mm

OZMa 1 O 1,114 1,961 400

OZMa 2 O 1,114 1,961 400

OZMa 3 O 1,114 1,961 400

OZMa 1 O 220

OZMa 2 O 230

OZMa 3 O 250

°C bar

OZMa 1 O 35 0.8–2.0

OZMa 2 O 35 0.8–2.0

OZMa 3 O 35 0.8–2.0

Nl/h Nl/h Nl/h vol% °C bar µm ppm °C

OZMa 1 O 1,050 400* 1,540 90 -50 3–6 5 20 30

OZMa 2 O 1,580 600* 2,300 90 -50 3–6 5 20 30

OZMa 3 O 2,100 800* 3,100 90 -50 3–6 5 20 30

l/h l/h bar mm mm

OZMa 1 O 120 200 1–5 8x5 8x5

OZMa 2 O 180 300 1–5 8x5 8x5

OZMa 3 O 240 400 1–5 12 x 9 12 x 9

g/h g/h g/h Wh/g cos φ

Electrical connection Connected load Enclosure rating

V/Hz/A

Overall dimensions Width Height Depth

Weight Weight

Ozone mixing Max. raw water temperature Permissible pressure at ozone outlet

Specification of operating gas: oxygen Gas volume at nominal capacity 100 g/Nm3 Gas volume at capacity 150 g/Nm3 Gas volume at capacity 80 g/Nm3 Concentration min. Dew point max. Pressure Max. particles Max. hydrocarbons Max. temperature

No tendency to form lime scale, no corrosive components; Sedimentable substances: < 0.1 ml/l; Iron: < 0.2mg/l; Manganese: < 0.05 mg/l; Conductivity: > 100 µS/cm; Chloride: < 250 mg/l * Output 150 g/Nm3as special version must be factory-set ** Nm3= m3at standard conditions (P = 1.013x105Pa, T = 273 K)

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Ozone plants

OZONFILT® OZMa 4-6 O Ozone Generation Systems (Operating Gas - Oxygen) Number of generator modules Nominal ozone capacity at 100 g/Nm3 ** and cooling water at 15 °C Ozone capacity at 150 g/Nm3 * Ozone capacity at 80 g/Nm3 Specific energy requirement at nominal capacity Power factor at full capacity Ozone connection

OZMa 4 O 2 320

OZMa 5 O 2 420

OZMa 6 O 3 630

180 370 9 0.95 G 3/8" internal

240 490 9 0.95 G 3/8" internal

360 735 9 0.95 G 3/8" internal

OZMa 4 O 400/50;60/16 IP 43

OZMa 5 O 400/50;60/16 IP 43

OZMa 6 O 400/50;60/16 IP 43

mm mm mm

OZMa 4 O 1,320 1,961 605

OZMa 5 O 1,320 1,961 605

OZMa 6 O 1,320 1,961 605

OZMa 4 O 320

OZMa 5 O 345

OZMa 6 O 415

°C bar

OZMa 4 O 35 0.8–2.0

OZMa 5 O 35 0.8–2.0

OZMa 6 O 35 0.8–2.0

Nl/h Nl/h Nl/h vol% °C bar µm ppm °C

OZMa 4 O 3,200 1,200* 4,630 90 -50 3–6 5 20 30

OZMa 5 O 4,200 1,600* 6,130 90 -50 3–6 5 20 30

OZMa 6 O 6,300 2,400* 9,190 90 -50 3–6 5 20 30

l/h l/h bar mm mm

OZMa 4 O 200 330 1–5 12 x 9 12 x 9

OZMa 5 O 280 470 1–5 12 x 9 12 x 9

OZMa 6 O 420 700 1–5 12 x 9 12 x 9

g/h g/h g/h Wh/g cos φ

Electrical connection Connected load Enclosure rating

V/Hz/A

Overall dimensions Width Height Depth

Weight Weight

Ozone mixing Max. raw water temperature Permissible pressure at ozone outlet

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3-15

3 3.6.3

Ozone plants Order Information For OZONFILT® OZMa Plants

OZMa Type ozone generator Air operation / Oxygen operation g/h g/h 01 70 105 02 105 158 03 140 210 04 210 320 05 280 420 06 420 630 Operating gas A Operating gas - air O Operating gas - oxygen Type P ProMaqua S Special version Mechanical design 0 Standard (packaging for transport by HGV) 1 Standard (packaging for sea/air freight) 2 In stainless steel cabinet (packaging for transport by HGV) 3 In stainless steel cabinet (packaging for sea/air freight) M Modified Operating voltage A Single-phase 230 V ±10 %, 50/60 Hz (only types 01-03) S Three-phase 230/400 V ±10 %, 50/60 Hz (only types 04-06) Gas treatment 0 Gas treatment not integrated (design operating gas - oxygen) 1 Gas treatment integrated without filter package (design operating gas - air) 2 Gas treatment integrated with filter package (design operating gas - air) 3 Gas treatment not integrated (oxygen operating gas version), including gas control valve 4 Gas treatment integrated without filter package (air operating gas version), including gas control valve 5 Gas treatment integrated with filter package (air operating gas version), including gas control valve Preset language DE German EN English FR French IT Italian ES Spanish Control 0 Basic version with digital input to control two power stages 1 External power control via 0/4-20 mA input, data logger 2 External power control, ozone measurement and visualisation via screen recorder, 2 freely configurable 0/4-20 mA inputs, 1 freely configurable 0/4-20 mA output 3 As 2 with additionally integrated PID controller for control of the ozone concentration independent of measured value and flow Communication interfaces 0 None 4 PROFIBUS® DP interface Additional options 0 None 1 Dew point sensor Approvals 01 CE-mark Hardware 0 Standard Software 0 Standard

Explanation on the Identcode: Mechanical design: In design 0 and 1, the plant is installed in a standard control cabinet made of powdercoated steel. Gas treatment: Without filter package for oil-free generated or de-oiled compressed air. With filter package for compressed air with residual oil content.

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Ozone plants

3.7

Safety accessories for ozone systems

3.7.1

Room Air Monitor Gas warning device GMA 36 – ozone and oxygen Calibratable gas warning device with digital display of the detected gas concentration. 2 relay outputs for issue of infringements of warning and alarm thresholds, to switch external alarm sounder and for interlocking with the ozone plant. The warning message relay is self-resetting, the alarm relay is a latching type and should be acknowledged at the device. 1 self-resetting relay for connection to an alarm horn is switched in the event of fault conditions and when the alarm limit is exceeded. The ozone sensor responds to all strongly oxidising gases, hence it responds to chlorine gas or chlorine dioxide too. The GMA 36 oxygen warning device is intended for installations where an unacceptably high oxygen enrichment of the ambient air is possible.

Technical Data pk_7_004_1 Gas warning devices GMA 36

Type Warning at approx. ppm/vol% Alarm at approx. ppm/vol% Permissible ambient temperature °C Protection class housing Dimensions (without PGs, without sensor) H x W x D mm Supply V/Hz Power consumption W Warm-up phase max. s "Warning" relay contact, self-resetting V/A "Alarm" relay contact, latching V/A "Horn" relay contact, latching, can be acknowledged V/A Sensor measuring principle Sensor service life (depending on environmental years cond.)

Gas warning device GMA 36 Gas warning device GMA 36

Ozone 0.3 0.5 -15…45 IP 54 247 x 135 x 95 85 – 264/50 – 60 5 150 230/1 230/1 230/1 electrochemical 2–3

Type Ozone Oxygen

Oxygen 23.0 25.0 -15…45 IP 54 247 x 135 x 95 85 – 264/50 – 60 5 20 230/1 230/1 230/1 electrochemical 2–3

Order no. 1023155 1023971

Spareparts Replacement sensor for chlorine, chlorine dioxide, ozone Replacement sensor for oxygen Replacement sensor for gas warning devices in the Life CGM range

Order no. 1023314 1023851 1003009

Mounting kit Mounting kit for direct mounting of the CGM 1060 and GMA 36 ozone warning devices on the housing of the OZVa plants Support bracket for mounting kit for all types of OZVa except OZVa 1/2 with transparent mixing system

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Swimming pool technology 2013

Order no. 1004248 1005854

3-17

Ozone plants Warning light and horn Combined horn and red warning lamp. IP 33 enclosure made of impact-resistant ABS. Dome made of clear polycarbonate. Connected load: 230 V AC, 50 mA. Supplied complete with B 15 d / 7 watt bulb. Warning light and horn

Order no. 1010508

Gas tracing pump Hand operated, non-continuously working test tube pump for fast and accurate measurement of ozone gas. Complete with 10 no. ozone gas test tubes 0.05-5 ppm in carrying case. Gas tracing pump

Order no. 1025533

Potassium iodide starch paper Roll with 4.8 m test strip for leak detection on pipelines carrying ozone gas. Potassium iodide starch paper

3.7.2

Order no. 1025575

Personal Protection Needs Gas mask Ozone-resistant, full-face respiratory protective mask with panoramic window shield to EN 136 Class 3. Medium size with EN 148-1 threaded pipe connection. Complete with combination filter NO-P3 and carrying case. Order no. 1025574

Gas mask

Warning label Warning label in accordance with the â&#x20AC;&#x153;Guidelines for the use of ozone for water treatmentâ&#x20AC;? ZH 1/474, issued by the central office of the industrial safety associations. Version supplied as a combined adhesive label with markings as follows: warning sign, ozone plant room indication and prohibited activity signs. Order no. 740921

Warning label

Emergency stop switch For installation near the door of the ozone plant room. IP 65 PVC enclosure. Emergency stop switch

3-18

Swimming pool technology 2013

Order no. 700560

1.3.2013

4 4.1

Disinfection and oxidation process CHLORINSITU® Electrolysis Systems 4.0.1Swimming pool technology 2013

Chlorine and sodium hydroxide are produced in electrolysis in-situ by passing an electric current through salt water. In tubular cell electrolysis (CHLORINSITU® II versions), the electrochemical reaction takes place in one chamber, so that the chlorine gas produced immediately reacts with sodium hydroxide to form sodium hypochlorite. Saturated brine is used as a salt solution which is produced in a separate salt-dissolving tank from salt of a defined quality. The advantage of tubular cell electrolysis is the simple design of the equipment. The disadvantage is the relatively poor yield which leads to a high entrainment of chloride in the water to be treated and the relatively low chlorine concentrations in the reaction mixture. In membrane electrolysis, the electrochemical reaction takes place in two electrode chambers separated by a membrane, so that the formation of the chlorine and sodium hydroxide is physically separated. CHLORINSITU® III type systems bring the reaction mixtures of both electrode chambers together again after the electrochemical reaction to produce a stock solution of sodium hypochlorite which can be stored temporarily and metered as needed. In compact CHLORINSITU® IV and CHLORINSITU® IV type systems, the chlorine is directly added to the water to be treated where it dissolves as hypochlorous acid. In CHLORINSITU® IV plus type systems, any excess chlorine gas produced is combined with the sodium hydroxide, as in the CHLORINSITU® III system, to form sodium hypochlorite and then stored temporarily. Hence the systems need thus only be designed for medium chlorine demand because capacity peaks are compensated from the temporary storage. In all CHLORINSITU® IV type systems the sodium hydroxide is stored temporarily and metered for pH value correction as required. The advantage of membrane systems is the high efficiency and prevention of entrainment of chloride from the electrolysis cell into the water to be treated. In systems for the production of sodium hypochlorite, the high yield results in solutions which have a significantly higher chlorine content than when produced by tubular cell electrolysis. 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

1.3.2013

Disinfection based on cooking salt No handling of hazardous chemicals Economical method thanks to low salt and energy consumption Ultra-pure chlorine thanks to production in-situ and short temporary storage periods Water disinfection and pH correction using one system (CHLORINSITU® IV) Maximum operating safety thanks to design as a vacuum system Improved working conditions for operating personnel No risk of confusing dangerous chemical tanks

Swimming pool technology 2013

4-1

Disinfection and oxidation process

4.2

Membrane electrolysis systems CHLORINSITU® III - IV compact CHLORINSITU® IV compact electrolysis systems generate ultra-pure chlorine gas in a vacuum process. A saturated solution of sodium chloride is produced in a salt dissolving tank (included in the scope of supply) for this purpose, which is then electrolysed in a membrane cell. Sodium hydroxide and hydrogen are produced in the cathode chamber while ultra-pure chlorine gas and dilute residual brine are produced in the anode chamber, separated by the membrane from the cathode chamber. The resulting chlorine gas is suctioned off through an injector integrated in the system and dissolved as hypochlorous acid in the water being treated. The hydrogen generated is discharged through a bleed line. The sodium hydroxide is disposed of or optionally used with a metering pump integrated in the system to correct the pH of the water being treated. The salt-dissolving water comes from a softener integrated in the system, thereby preventing the formation of limescale and ensuring the long service life of the electrolytic cell. The microprocessor controller integrated in the system digitally indicates the current output and monitors all key functions. All operating and error messages are shown in full text on the clear display. The output can be controlled manually or externally. CHLORINSITU® IV compact electrolysis systems are especially suitable for use with smaller swimming pools in residential properties and hotels (indoor pools of up to 2,000 m3).

P_PMA_EL_0007_SW

쮿 Production and metering of ultra-pure hypochlorous acid 쮿 Cost-effective operation thanks to the use of sodium chloride as an inexpensive raw material and lower chemical consumption for pH correction 쮿 Water disinfection and pH correction with one system 쮿 Safe vacuum system technology 쮿 Optional integrated chlorine and pH control 쮿 Robust, simple technology 쮿 Compact, space-saving design

CHLORINSITU® III compact (New) produces 20-25 g/l sodium-calcium hypochlorite and stores this in a 60 l storage tank. Type/ output g/h 25 50

Voltage supply

Power uptake kW 230 V/50 Hz 0.11 230 V/50 Hz 0.22

Salt consumption g/h 65 131

Process water consumption l/h 1.5 3

Dimensions L x W x H (mm) 590 x 355 x 650 590 x 355 x 650

Brine tank l 130 130

Scope of supply: As CHLORINSITU® IV compact, but with a 60 l storage tank for storage of the sodium-calcium hypochlorite in place of the injector. A metering pump should be considered. CHLORINSITU® III compact 25 CHLORINSITU® III compact 50

Order no. 51100000 51200000

The CHLORINSITU® III compact 25 is suitable for a circulation capacity of 25 m3/h (indoor pool), the CHLORINSITU® III compact 50 for a circulation capacity of 50 m3/h (indoor pool).

4-2

Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process CHLORINSITU® IV compact Type/ output g/h 25 50

Voltage supply 230 V/50 Hz 230 V/50 Hz

Power Salt uptake consumption kW g/h 0.11 65 0.22 131

Process water consumption l/h 1.5 3

Dimensions L x W x H (mm) 590 x 355 x 650 590 x 355 x 650

Brine tank l 130 130

Scope of delivery: Chlorine electrolysis plant mounted on a wall plate, wired ready for connection, with integrated microprocessor control and softener system. Electrolytic cell with vacuum monitor, separate salt dissolving tank with level monitor. Fitted injector and metering equipment for sodium hydroxide (optional). Order no. 25 g/h CHLORINSITU® IV compact 25 CHLORINSITU® IV compact 25 with pH correction CHLORINSITU® IV compact 25 with integral pH and chlorine controller CHLORINSITU® IV compact 25 with integral pH and chlorine controller plus pH correction 50 g/h CHLORINSITU® IV compact 50 CHLORINSITU® IV compact 50 with pH correction CHLORINSITU® IV compact 50 with integral pH and chlorine controller CHLORINSITU® IV compact 50 with integral pH and chlorine controller plus pH correction Sensors Sensors

1036461 1036462 1041405 1041403

1036463 1036464 1041406 1041404

Mvdh

Scope of delivery: without sensors, no accessories

Spare Parts Annual maintenance kit 3-yearly maintenance kit Annual service kit 3-yearly service kit Annual maintenance kit 3-yearly maintenance kit Annual service kit 3-yearly service kit Membrane cell Membrane cell Annual service kit 3-yearly service kit 3-yearly service kit Electrolysis diaphragm Electrolysis diaphragm Spare parts kit

1.3.2013

Type CHLORINSITU® IV compact 25 CHLORINSITU® IV compact 25 CHLORINSITU® IV compact 25 with pH correction CHLORINSITU® IV compact 25 with pH correction CHLORINSITU® IV compact 50 CHLORINSITU® IV compact 50 CHLORINSITU® IV compact 50 with pH correction CHLORINSITU® IV compact 50 with pH correction CHLORINSITU® III und IV compact 25 CHLORINSITU® III und IV compact 50 MCEa 12/24/48 MCEa 12/24 MCEa 48 MCEa 12/24 MCEa 48 CHLORINSITU® IV compact 25/50

Swimming pool technology 2013

Order no. 1041415 1041416 1043267 1043268 1041417 1041418 1043269 1043270 1041419 1041420 1006715 1020419 1020420 1026279 1026280 1045232

4-3

Disinfection and oxidation process

4.3

Gas Warning Device for Monitoring Chlorine Gas The GMA 36 chlorine gas warning device is a compact measuring and switching unit designed for monitoring the surrounding air for dangerous concentrations of chlorine gas.

Gas warning device GMA 36 for monitoring chlorine gas

pk_7_004_1 Gas warning devices GMA 36

Type Warning at approx. Alarm at approx. Permissible ambient temperature Protection class housing Dimensions (without PGs, without sensor) H x W x D Supply Power consumption Warm-up phase max. "Warning" relay contact, self-resetting "Alarm" relay contact, latching "Horn" relay contact, latching, can be acknowledged Sensor measuring principle Sensor service life (depending on environmental cond.)

Chlorine 2.0 ppm/vol% 4.0 ppm/vol% -15…45°C IP 54 247 x 135 x 95 mm 85 – 264 / 50 – 60 V/Hz 5W 150 s 230 / 1 V/A 230 / 1 V/A 230 / 1 V/A electrochemical 2–3 years

Note: The sensor reacts to all oxidising gases. GMA 36 chlorine gas detector

Order no. 1023157

Spare parts Replacement sensor Replacement sensor

4.4

for chlorine, chlorine dioxide, ozone for gas warning devices in the Life CGM range

Order no. 1023314 1003009

Accessories

Water hardness measuring kit for manual determination of the overall hardness Water hardness measuring kit for overall hardness

4-4

Swimming pool technology 2013

Order no. 505505

1.3.2013

Disinfection and oxidation process

4.5

CHLORINSITU® II Tubular Cell Electrolysis Systems CHLORINSITU® II electrolysis systems generate sodium-calcium hypochlorite with a concentration of 5 g/l. A saturated solution of sodium chloride is produced in a salt dissolving tank (included in the scope of supply) for this purpose, which, after appropriate dilution, is electrolysed in an open cell. The resulting solution is collected in a storage container and, from there, metered according to requirements using separate metering pumps. Due to its moderate pH value of 8.5 - 9, it affects the pH of the treated water significantly less than if conventional sodium-calcium hypochlorite with a pH of 12 -13.5 were to be used. The hydrogen produced is diluted with fresh air through an ATEX-approved ventilator and discharged safely. Both the salt-dissolving and diluting water comes from a softener integrated in the system, thereby preventing the formation of limescale and ensuring the long service life of the electrolytic cell. The systems are controlled using a modern PLC with large, illuminated display and integrated modem for remote diagnosis and troubleshooting. CHLORINSITU® II electrolysis systems are especially suitable for applications where a robust and clearly laid-out technology is required and where the carry-over of some sodium chloride into the water being treated is not a problem. 쮿 Robust, simple technology 쮿 Safe system control with remote diagnosis by modem 쮿 Cost-effective operation thanks to the use of sodium chloride as an inexpensive raw material and lower chemical consumption for pH correction 쮿 Compact, space-saving design 쮿 Improved working conditions for the operating personnel 쮿 No risk of confusing dangerous chemical tanks

P_PMA_EL_0003_SW

Technical Data Type/ output

Voltage supply

g/h 50 100 150 200 300 400 500 600 800 1000 1200 1400 1600 1800 2000 2200 2400

230 V 230 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V

Power uptake

Salt consumption

Process water consumption

Cooling water consumption

Dimensions L x W x H (mm)

Brine tank

kW 0.78 1.15 1.53 1.90 2.65 3.40 4.15 4.90 6.40 7.90 9.40 10.90 12.40 13.90 15.40 16.90 18.40

kg/h 0.2 0.4 0.6 0.8 1.1 1.5 1.9 2.3 3.0 3.8 4.6 5.3 6.1 6.9 7.7 8.4 9.2

l/h 11.0 22.0 32.0 43.0 65.0 86.0 108.0 129.0 172.0 215.0 258.0 301.0 344.0 387.0 430.0 473.0 516.0

l/h – – – – – – – – – – – – – – – – –

1,050 x 600 x 1,550 1,050 x 600 x 1,550 1,050 x 600 x 1,550 1,050 x 600 x 1,550 1,050 x 600 x 1,550 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,250 x 600 x 2,000 1,650 x 600 x 2,000 1,650 x 600 x 2,000 1,650 x 600 x 2,000 1,650 x 600 x 2,000

l 130 130 200 200 200 380 380 380 520 520 520 520 760 760 760 760 760

Recommended capacity storage tank l 300 500 700 1000 1500 2000 2500 3000 3500 4500 5500 6000 7000 8000 9000 10000 11000

Scope of supply: Connection-ready electrolysis system mounted on a powder-coated stainless steel frame with programmable logic controller (PLC) in a control cabinet, integrated softening system, electrolysis cell, ATEX-certified bleeding system and salt dissolving tank supplied with level monitor. Level sensors to monitor the sodium-calcium hypochlorite storage tanks that are to be provided by the customer. Automatic monitoring of the water hardness downstream of the softening system for systems from 750 g/h. Remarks: CHLORINSITU® II, III, IV and IV plus electrolysis systems are offered and planned according to customer specifications. This is true both for the system documentation and the subsequent spare parts supply and maintenance.

1.3.2013

Swimming pool technology 2013

4-5

Disinfection and oxidation process

4.6

CHLORINSITU® III Membrane Electrolysis Systems CHLORINSITU® III membrane electrolysis systems generate sodium hypochlorite with a concentration of approximately 20-25 g/l without major transfer of sodium chloride from the electrolytic cell into the finished product. A saturated solution of sodium chloride is produced in a salt-dissolving tank (included in the scope of supply) for this purpose, which is then electrolysed in a membrane cell. Sodium hydroxide and hydrogen are produced in the cathode chamber, while chlorine gas and dilute residual brine are produced in the anode chamber, which is separated by the membrane from the cathode chamber. The chlorine gas produced binds to the sodium hydroxide solution and is collected in a storage container as sodium-calcium hypochlorite and from there metered according to requirements using separate metering pumps. Due to its moderate pH value of 9 - 9.5, it affects the pH of the treated water significantly less than if conventional sodium-calcium hypochlorite with a pH of 12 -13.5 were to be used. The hydrogen produced is diluted with fresh air through an ATEX-approved ventilator and discharged safely. The salt-dissolving water comes from a softener integrated in the system, thereby preventing the formation of limescale and ensuring the long service life of the electrolytic cell. The efficiency of the electrolysis system is monitored by an integral pH value measurement of the sodium hydroxide solution production.

P_PMA_EL_0004_SW

The systems are controlled using a modern PLC with large, illuminated display and integrated modem for remote diagnosis and troubleshooting. CHLORINSITU® III electrolysis systems are especially suitable for applications in which sodium-calcium hypochlorite solution low in chloride and chlorate is required. Sodium-calcium hypochlorite low in chloride and chlorate with a high chlorine concentration Minimised acid consumption for pH correction Safe system control with remote diagnosis by modem Electrolytic cells are extremely durable Cost-effective operation thanks to the use of sodium chloride as an inexpensive raw material and lower chemical consumption for pH correction 쮿 Robust, simple technology 쮿 Compact, space-saving design 쮿 쮿 쮿 쮿 쮿

Technical Data Type/ Voltage output supply g/h 50 75 100 200 300 400 500 600 1000 1500 2000 2500 3000 3500

3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V

Power uptake

Salt consumption

Process water consumption

Cooling water consumption

Dimensions L x W x H (mm)

Brine tank

kW 0.90 1.00 1.10 1.50 1.90 2.30 2.70 3.10 4.70 6.70 8.70 10.70 12.70 14.70

kg/h 0.1 0.2 0.2 0.4 0.6 0.8 1.1 1.3 2.1 3.2 4.2 5.3 6.3 7.4

l/h 2.4 3.6 4.8 9.7 15.0 19.0 24.0 29.0 48.0 73.0 97.0 121.0 145.0 169.0

l/h – – – – 100 100 100 100 100 100 200 200 200 200

1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,250 x 600 x 1,550 1,650 x 600 x 1,550 1,650 x 600 x 2,000 1,650 x 600 x 2,000 1,650 x 600 x 2,000 1,750 x 1,200 x 2,000 1,750 x 1,200 x 2,000 1,750 x 1,200 x 2,000

l 130 130 130 130 200 200 200 200 380 380 520 520 520 520

Recommended capacity storage tank l 100 100 200 300 400 500 600 700 1200 1800 2500 3000 3300 4000

Scope of delivery: Electrolysis plant mounted ready for operation on a powder-coated stainless steel frame with programmable logic controller (PLC) in a control cabinet, integrated softener, electrolytic cell, pH value monitoring, ATEX-certified bleeding system and side salt-dissolving tank with level monitor. Level sensors to monitor the storage tanks for sodium hypochlorite to be provided by the customer. Automatic monitoring of the water hardness downstream of the softener and chlorine gas detector for plants from 750 g/h. Remarks: CHLORINSITU® II, III, IV and IV plus electrolysis systems are offered and planned according to customer specifications. This is true both for the system documentation and the subsequent spare parts supply and maintenance.

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Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process

4.7

CHLORINSITU® IV Membrane Electrolysis Systems CHLORINSITU® IV electrolysis systems generate ultra-pure chlorine gas in a vacuum process. A saturated solution of sodium chloride is produced in a salt dissolving tank (included in the scope of supply) for this purpose, which is then electrolysed in a membrane cell. Chloride-free sodium hydroxide and hydrogen are produced in the cathode chamber, while ultra-pure chlorine gas and dilute residual brine are produced in the anode chamber, separated by the membrane from the cathode chamber. The chlorine gas produced is suctioned off through an injector (contained in the scope of supply) and dissolved as hypochlorous acid in the water being treated. The chloride-free sodium hydroxide is stored temporarily and can be transferred into the water through the same injector to adjust the pH value. To achieve this, an external pH value controller is directly connected to the system's control. The generated hydrogen is diluted with fresh air through an ATEX-certified ventilator and discharged safely and the diluted residual brine is disposed of. The salt-dissolving water comes from a softener integrated in the system, thereby preventing the formation of limescale and ensuring the long service life of the electrolytic cell. The systems are controlled using a modern PLC with large, illuminated display and integrated modem for remote diagnosis and troubleshooting. The chlorine metering and the pH value correction are controlled as standard via contact inputs. Options: 쮿 Analog input 쮿 MOD-bus or PROFIBUS® 쮿 Several points of injection

P_PMA_EL_0005_SW

CHLORINSITU® IV electrolysis systems are suitable for all applications that require simultaneous hypochlorous acid metering and pH value correction. 쮿 Production and metering of ultra-pure hypochlorous acid without temporary storage 쮿 Chlorination and pH correction using a single system 쮿 Cost-effective operation thanks to the use of sodium chloride as an inexpensive raw material and lower chemical consumption for pH correction 쮿 Safe vacuum system technology 쮿 Robust technology 쮿 Compact, space-saving design

Technical Data Type/ output g/h 100 150 200 300 400 500 600 750 1000 1250 1500 1750 2000 2500 3000 3500

Voltage supply 230 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V

Power uptake kW 1.10 1.30 1.50 1.90 2.30 2.70 3.10 3.70 4.70 5.70 6.70 7.70 8.70 10.70 12.70 14.70

Salt consumption kg/h 0.2 0.3 0.4 0.6 0.8 1.1 1.3 1.6 2.1 2.6 3.2 3.7 4.2 5.3 6.3 7.4

Process water Cooling water consumption consumption l/h l/h 0.8 – 1.3 – 1.7 – 2.5 – 3.4 – 4.2 – 5.0 – 6.3 – 8.4 – 11.0 – 13.0 – 15.0 – 17.0 200 21.0 200 25.0 200 29.0 200

Dimensions L x W x H (mm) 1,150 x 600 x 1,550 1,150 x 600 x 1,550 1,150 x 600 x 1,550 1,150 x 600 x 1,550 1,150 x 600 x 1,550 1,150 x 600 x 1,550 2,900 x 600 x 2,000 2,900 x 600 x 2,000 2,900 x 600 x 2,000 2,900 x 600 x 2,000 2,900 x 600 x 2,000 3,300 x 600 x 2,000 3,300 x 600 x 2,000 3,300 x 600 x 2,000 3,300 x 600 x 2,000 3,300 x 600 x 2,000

Brine Recommended tank capacity storage tank l l 130 – 130 – 200 – 200 – 200 – 200 – 200 – 380 – 380 – 380 – 380 – 380 – 520 – 520 – 520 – 520 –

Scope of supply: Electrolysis system mounted ready for operation on a powder coated stainless steel frame with programmable logic controller (PLC) in a control cabinet, integrated softening system, electrolysis cell, pH value monitoring of the electrolysis, ATEX-certified bleeding system and saltdissolving tank supplied with level monitor. The scope of supply also includes a central injector system matched to the system to meter chlorine gas and sodium hydroxide, inclusive of a booster pump. Automatic monitoring of the water hardness downstream of the softening system and chlorine gas detector for systems from 750 g/h. Remarks: CHLORINSITU® II, III, IV and IV plus electrolysis systems are offered and planned according to customer specifications. This is true both for the system documentation and the subsequent spare parts supply and maintenance. 1.3.2013

Swimming pool technology 2013

4-7

Disinfection and oxidation process

4.8

P_PMA_EL_0006_SW

CHLORINSITU® IV plus Membrane Electrolysis Systems CHLORINSITU® IV plus electrolysis systems generate ultra-pure chlorine gas in a vacuum process. A saturated solution of sodium chloride is produced in a salt dissolving tank (included in the scope of supply) for this purpose, which is then electrolysed in a membrane cell. Chloride-free sodium hydroxide and hydrogen are produced in the cathode chamber, while ultra-pure chlorine gas and dilute residual brine are produced in the anode chamber, separated by the membrane from the cathode chamber. The resulting chlorine gas is further processed in two ways. Firstly, as with CHLORINSITU® IV systems, the gas is suctioned off through an injector that forms part of the scope of supply and dissolved as hypochlorous acid in the water being treated. If the complete production output is not needed, excess chlorine gas can also be combined with the sodium hydroxide produced and then temporarily stored as sodium hypochlorite, as is the case with CHLORINSITU® III systems. The system thus does not have to be dimensioned according to the maximum chlorine gas demand rather according to the average daily demand. Peaks in demand are met by the additional metering of sodium-calcium hypochlorite from the temporary storage. As with chlorine gas, metering is done through a central injector system. The chloride-free sodium hydroxide is likewise stored temporarily and can be transferred into the water being treated through the central injector system to adjust the pH value. To achieve this, an external pH value controller is directly connected to the system's control. The generated hydrogen is diluted with fresh air through an ATEX-certified ventilator and discharged safely and the diluted residual brine is disposed of. The salt-dissolving water comes from a softener integrated in the system, thereby preventing the formation of limescale and ensuring the long service life of the electrolytic cell. The systems are controlled using a modern PLC with large, illuminated display and integrated modem for remote diagnosis and troubleshooting. The chlorine metering and the pH value correction are controlled as standard via contact inputs; analog inputs are likewise available. CHLORINSITU® IV plus electrolysis systems are a particularly economical alternative for all applications that require simultaneous hypochlorous acid metering and pH value correction. 쮿 Simultaneous production and metering of ultra-pure hypochlorous acid and sodium-calcium hypochlorite 쮿 Chlorination and pH correction using a single system 쮿 Cost-effective operation thanks to the use of sodium chloride as an inexpensive raw material and lower chemical consumption for pH correction 쮿 Safe vacuum system technology 쮿 Robust technology 쮿 Compact, space-saving design

4-8

Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process Technical Data

Type/ Voltage output supply g/h 100 150 200 300 400 500 600 750 1000 1250 1500 1750 2000 2500 3000 3500

230 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V 3 x 400 V

Power uptake

Salt Process water consumption consumption *

kW 1.10 1.30 1.50 1.90 2.30 2.70 3.10 3.70 4.70 5.70 6.70 7.70 8.70 10.70 12.70 14.70

kg/h 0.2 0.3 0.4 0.6 0.8 1.1 1.3 1.6 2.1 2.6 3.2 3.7 4.2 5.3 6.3 7.4 *

Cooling water consumption

Dimensions L x W x H (mm)

Brine tank

l/h – – – – – – – – – – – – 200 200 200 200

1,950 x 600 x 1,550 1,950 x 600 x 1,550 1,950 x 600 x 1,550 1,950 x 600 x 1,550 1,950 x 600 x 1,550 3,700 x 600 x 2,000 3,700 x 600 x 2,000 3,700 x 600 x 2,000 3,700 x 600 x 2,000 3,700 x 600 x 2,000 3,700 x 600 x 2,000 3,700 x 600 x 2,000 4,100 x 600 x 2,000 4,100 x 600 x 2,000 4,100 x 600 x 2,000 4,100 x 600 x 2,000

l 130 130 200 200 200 200 200 380 380 380 380 380 520 520 520 520

l/h 11 16 22 33 43 54 65 81 108 136 163 190 217 271 325 379

Recommended capacity storage tank l 150 200 250 400 500 600 700 850 1,100 1,400 1,700 2,000 2,200 2,800 3,300 3,900

The process water consumption depends on the ratio between chlorine gas and stock production. Here, the value for a ratio 50 % : 50 % is given.

Capacities > 3,500 g/h upon request Scope of supply: Electrolysis system mounted ready for operation on a powder coated stainless steel frame with programmable logic controller (PLC) in a control cabinet, integrated softening system, electrolysis cell, pH value monitoring of the electrolysis, ATEX-certified bleeding system and supplied salt-dissolving tank with level monitor. Level sensors to monitor the sodium-calcium hypochlorite storage tanks that are to be provided by the customer. The scope of supply also includes a central injector system matched to the system to meter chlorine gas, sodium-calcium hypochlorite and sodium hydroxide, inclusive of a booster pump. Automatic monitoring of the water hardness downstream of the softening system and chlorine gas detector for systems from 750 g/h. Remarks: CHLORINSITU® II, III, IV and IV plus electrolysis systems are offered and planned according to customer specifications. This is true both for the system documentation and the subsequent spare parts supply and maintenance.

1.3.2013

Swimming pool technology 2013

4-9

4 4.9

Disinfection and oxidation process Dulcodes UV treatment systems Dulcodes UV treatment systems are used to remove bound chlorine (chloramine) and ozone in swimming pool water treatment. The intensive UV radiation reduces the odour intensive substances that are irritating to the eyes. The result is an improved quality of water for healthy and pleasant bathing. UV low pressure lamps, as well as UV medium pressure lamps, are used for this purpose. Whereas systems are used with low pressure lamps in private swimming pools or small pools (e.g. hotel pools), the UV treatment of the swimming pool water in larger public swimming pools is almost always carried out using medium pressure lamps due to the high circulation capacity. Although the Dulcodes UV system also improves the microbiological quality of the water, the addition of a disinfectant with depositing effect (e.g. chlorine) cannot be avoided. Features of our Dulcodes UV system technology 쮿 쮿 쮿 쮿 쮿 쮿 쮿

High quality radiation chambers made from stainless steel (DIN 1.4404 or 1.5671) or plastic Highly selective long-term and temperature-stable UVC sensors Uniform radiation of the entire water flow thanks to optimised system hydraulics Use of UV lamps with long lamp life time and high UV-C yield System control with comprehensive monitoring and reporting functions Trend display of the variation of the UV sensor signal over time Use of modern electronic pre-switching units with bus technology for lamp-friendly ignition and operation

The right UV system for every swimming pool Dulcodes W standard systems for private swimming pools or small pools (e.g. hotel pools) 쮿 Standard UV system with high-efficiency low pressure High Flux lamps with a guaranteed lamp service life of 8 - 10,000 hours Dulcodes R systems for private and public swimming pools with manual wiper 쮿 are particularly suitable for water which tends to form deposits on the lamp protection tubes. This range of systems is equipped with high-efficiency low pressure Opti Flux lamps and provides a guaranteed lamp service life of 14,000 hours. Dulcodes M systems for public swimming pools with automatic wiper system 쮿 are especially suitable for treating larger volumes of water of up to 800 m3/h, with only one lamp. Powerline medium pressure lamps have a guaranteed lamp service life of 8 - 10,000 hours. Dulcodes K systems for swimming pools containing brine (e.g. thermal spring water, sea water) 쮿 The radiation chamber made of UV-resistant, high-quality PE-HD plastic is equipped with highefficiency low pressure High Flux lamps with a guaranteed lamp service life of 8 - 10,000 hours. Enthusiastic operators 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Simple installation thanks to minimal installation, quick refitting and low space requirement The specified limit value for bound chlorine (0.2 mg / l) is easily achieved Considerable reduction in operating costs due to savings of fresh water, chemicals and heating energy. Low investment costs ensure short amortization periods Simple to operate, almost maintenance free Control based on measured values combined with DULCOMARIN® II Increased disinfection safety, destruction of chlorine-resistant germs

More enjoyable swimming 쮿 No chlorine odour and therefore, much better air in the swimming pool 쮿 No burning eyes, or skin irritation

4-10

Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process UV treatment systems for private swimming pools

Type

1x80W** 1x130W 1x230W 1x300R

Max. flow

m3/h 5.4* 8.7* 20.0* 30.0*

m3/h 7.2** 11.6** 27.0** 40.0** ** *

Lamp power W 80 130 230 1x300

Connected load W 100 150 250 320

Radiation chamber length mm 630 940 1,468 1,562

Ø mm 114 114 140 140

Connection nominal diameter G 1 1/4" G2 DN 65 DN 80

Design for a radiation dosage of 300 J/m2 with a transmission of 98%/cm Design for a radiation dosage of 400 J/m2 with a transmission of 98%/cm

The required radiation dosage depends on the individual level of contamination of the pool. Please contact us, we look forward to advising you.

UV treatment systems for public swimming pools Type

1x300R 2x230W 1x2ML 2x300R 1x3ML 3x300R 1x4ML 1x6ML 1x8ML 1x10ML 1x10ML

Max. flow

m3/h 30* 64* 88* 95* 158* 179* 229* 406* 541* 600* 800*

m3/h 40** 85** 117** 125** 210** 239** 305** 540** 600** 600** 800** ** *

Lamp power W 1x300 2x230 2,000 2x300 3,000 3x300 4,000 6,000 8,000 10,000 10,000

Connected load W 320 500 2,300 650 3,200 1,000 4,200 6,200 8,200 10,200 10,200

Radiation chamber length mm 1,562 1,640 850 1,633 850 1,638 1,200 1,200 1,500 1,500 1,500

Ø mm 140 220 220 220 220 273 270 320 320 320 400

Connection nominal diameter DN 80 DN 125 DN 100 DN 150 DN 150 DN 200 DN 200 DN 250 DN 250 DN 250 DN 300

Design for a radiation dosage of 400 J/m2 with a transmission of 98%/cm Design for a radiation dosage of 600 J/m2 with a transmission of 98%/cm

The required radiation dosage depends on the individual level of contamination of the pool. Please contact us, we look forward to advising you.

UV treatment systems for pools containing salt or brine (PE-HD plastic radiation chamber) Type

1x290K 2x290K 3x290K 4x290K

Max. flow

m3/h 27* 94* 193* 250*

m3/h 25** 36** 66** * **

Lamp power W 1x290 2x290 3x290 4x290

Connected load W 310 600 910 1,200

Radiation chamber length mm 1,530 1,535 1,535 1,535

Ø mm 138 188 268 268

Connection nominal diameter DN 80 DN 125 DN 200 DN 200

Design for a radiation dosage of 400 J/m2 with a transmission of 98 %/cm Design for a radiation dosage of 600 J/m2 with a transmission of 98 %/cm

The required radiation dosage depends on the individual contamination of the pool. Further systems for higher flows are available on request. Please contact us, we look forward to advising you.

1.3.2013

Swimming pool technology 2013

4-11

Disinfection and oxidation process

4.10

Dulcodes S UV Systems for Chloramine Control in Pool Water Dulcodes S UV treatment systems are suitable for the photochemical degradation of combined chlorine (chloramine) in swimming pool water treatment. Special medium-pressure UV lamps generate intensive polychromatic UV radiation to reduce the odour-intensive and eye-irritating substances. The result is an improved water quality for healthy and pleasant bathing. Features

P_PMA_DS_0018_SW1

쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Flow: up to 569 m3/h (depending on transmission). Extremely compact inline system with small footprint. Simple installation due to a minimum of fitting work, quick retrofitting. A free choice of fitting position ensures maximum installation flexibility. Can be directly installed in a plastic circulation pipe because no UV radiation escapes from the radiation chamber. Unbeatable simple and quick maintenance: All maintenance work can be carried out quickly and conveniently from one side. Powerline S medium-pressure lamps with high power input of up to 3 kW. Special UV medium-pressure lamp with intense polychromatic UV radiation. Lamp service life: approximately 8,000 h. Long-term stable UVC sensor for monitoring the lamp output, lamp protection tube fouling and changes in water quality. Integral temperature sensor for monitoring the water temperature in the radiation chamber. Large graphic display for displaying the time dependency of the UV sensor signal with a trend indication line. Manual power control to optimally adapt the system to the relevant capacity needed (not for Dulcodes 1 x 0.65 and 1S). Automatic switching on and off based on the chloramine value, for example used in conjunction with the DULCOMARIN® II. Optional manual or automatic wiper system for efficient removal of deposits on the lamp protection tube. The wiper system can be easily retrofitted. Radiation chambers made of high-grade stainless steel 1.4404. Control cabinet made of painted steel. Optimised use of energy, thanks to large radiation chamber and uniform irradiation of the entire water flow due to optimised system hydraulics.

Application focuses Potable water -

Industrial water ✔

Swimming pool water ✔

Waste water -

Salt water -

Technical Data Type

1x0,65S 1x0.65S 1x1S 1x1S 1x1S 1x1S 1x1S 1x1S 1x2S 1x2S 1x2S 1x2S 1x2S 1x2S 1x3S 1x3S 1x3S

4-12

(without wiper) (without wiper) (without wiper) (without wiper) (with wiper) (with wiper) (automatic wiper) (automatic wiper) (without wiper) (without wiper) (with wiper) (with wiper) (automatic wiper) (automatic wiper) (without wiper) (without wiper) (with wiper)

Max. flow

Lamp power

Connected load

Radiation chamber length

m3/h 20.0* 17.0* 51.0* 51.0* 58.0* 51.0* 51.0* 51.0* 89.0* 89.0* 102.0* 89.0* 89.0* 89.0* 177.0* 177.0* 205.0*

kW 0.65 0.65 1.00 1.00 1.00 1.00 1.00 1.00 2.00 2.00 2.00 2.00 2.00 2.00 3.00 3.00 3.00

kW 0.75 0.75 1.10 1.10 1.10 1.10 1.10 1.10 2.10 2.10 2.10 2.10 2.10 2.10 3.10 3.10 3.20

mm 500 500 700 700 700 700 700 700 700 700 700 700 700 700 800 800 800

Minimum Min. clearance for distance maintenance from wall work mm mm 335 160 300 160 300 450 300 450 400 450 300 450 300 450 300 450 400 550 400 550 500 550 400 550 400 550 400 550 500 650 500 650 600 650

Swimming pool technology 2013

Empty weight/ Operating weight kg 21/31 14/19 21/37 21/37 31/47 31/47 31/47 31/47 31/58 31/58 38/65 38/65 38/65 38/65 52/118 52/118 52/118

Connection nominal diameter mm 65 80 100 125 100 125 100 125 125 150 125 150 125 150 200 250 200

1.3.2013

Disinfection and oxidation process

Type

1x3S 1x3S 1x3S 2x2S 2x2S 2x2S 2x2S 2x3S 2x3S 3x3S 3x3S 3x3S 3x3S

(with wiper) (automatic wiper) (automatic wiper) (with wiper) (with wiper) (automatic wiper) (automatic wiper) (with wiper) (automatic wiper) (with wiper) (with wiper) (automatic wiper) (automatic wiper)

Max. flow

Lamp power

Connected load

Radiation chamber length

m3/h 177.0* 177.0* 177.0* 278.0* 240.0* 240.0* 240.0* 330.0* 330.0* 569.0* 500.0* 500.0* 500.0*

kW 3.00 3.00 3.00 4.00 4.00 4.00 4.00 6.00 6.00 9.00 9.00 9.00 9.00

kW 3.20 3.20 3.20 4.20 4.20 4.20 4.20 6.20 6.20 9.20 9.20 9.20 9.20

mm 800 800 800 900 900 900 900 900 900 900 900 900 900

Minimum Min. clearance for distance maintenance from wall work mm mm 600 650 600 650 600 650 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670 1,000 670

Empty weight/ Operating weight kg 52/118 52/118 52/118 78/166 78/166 78/166 78/166 78/166 78/166 78/166 78/166 78/166 78/166

Connection nominal diameter mm 250 200 250 200 250 200 250 250 250 250 300 250 300

* 98 %/cm transmission; 600 J/m2 UV dose for the breaking down of combined chlorine Manual wipers, optionally also available as automatic wipers Lamp type Controller type Permissible operating pressure Permissible ambient temperature Permissible water temperature

Powerline S medium-pressure lamp Powerline S comfort control 6 bar 5–40 °C 5–40 °C

Spare parts for Dulcodes S UV systems Powerline UV lamp 1 kW Powerline UV lamp 2 kW UV lamp Powerline 3 kW Lamp protection tube for Dulcodes 1 A and 0.6 S Lamp protection tube for Dulcodes 1 S Lamp protection tube for Dulcodes 2 S Lamp protection tube for Dulcodes 3 S Wiper element (2 required per UV lamp) Spare part set for UV S 1-3 kW motorised wiper Spare part set for UV S 2x2 kW and 2x3 kW motorised wiper Spare part set for UV S 3x3 kW motorised wiper O-ring lamp protection tube/lamp cover UVC-U sensor M 1.4539 O-ring for UVC sensor Sensor connection cable, 5 m long for systems supplied since September 2006 Replacement filter mats for control cabinet ventilation (2 off required per control cabinet)

1.3.2013

Swimming pool technology 2013

Order no. 1035179 1035057 1035180 1035218 1035166 1035041 1035193 1027879 1037735 1037756 1037757 790410 1034147 1002175 1021041 1004212

4-13

Disinfection and oxidation process

4.11

Bello Zon® CDLb Chlorine Dioxide Plant The Bello Zon® CDLb chlorine dioxide system uses the chlorite/acid process. A chlorine-free chlorine dioxide solution is generated from a sodium chlorite solution using hydrochloric acid in a batch process. Thanks to the innovative reactor design and stepwise process flow, the production of chlorine dioxide in this manner is exceptionally safe. Depending on type, the system can produce up to 120 g chlorine dioxide per hour. This is then buffered in an integral or separate receiver module at a concentration of 1,000 or 2,000 mg/l. Thanks to the 60 g of chlorine dioxide buffered in the separate receiver module, these systems need not be dimensioned according to their peak load but rather based on their mean consumption. This drastically reduces investment costs compared with conventional systems. The ProMinent® product range includes a wide range of metering pumps and control versions from which to choose when operating several injection points using chlorine dioxide from a receiver module. The innovative process produces a chlorine dioxide solution of exceptional long-term stability and achieves excellent efficiency of over 90 % in the chlorine dioxide reaction. No chlorine dioxide can escape from the system due to the closed gas transport system, thereby guaranteeing economical, environmentally-friendly operation with minimal use of chemicals. The modular construction of the system means it is suitable for a range of different applications. Possible applications of the Bello Zon® CDLb chlorine dioxide system are primarily in the prevention of Legionella and in disinfection in the food and beverage industries. Other applications are in cooling and potable water treatment and in swimming pool filter disinfection. Meets the high standards stipulated in the W 224 and W 624 German Association for Gas and Water (DVGW) data sheets.

P_PMA_BEZ_0077_SW

Advantages Safe process control No loss of chlorine dioxide due to closed gas transport system High stability of the chlorine dioxide solution Low investment costs Operation of several points of injection Filter disinfection Prevention of Legionella in hotels, hospitals, etc. Disinfection in the food and beverage industries (bottle rinsers, CIP, bottle washing machine, washing of fruit and vegetables) 쮿 Market gardening (irrigation water and sprinkler irrigation water) 쮿 Treatment of cooling water and potable water 쮿 Swimming pools (filter backwashing and prevention of Legionella) 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

P_PMA_BEZ_0122_SW

Technical Data Type CDLb 6 CDLb 12 CDLb 22 CDLb 55 CDLb 120 * ** 1)

Solution concentration mg/l 1000 2000 2000 2000 2000

Capacity l/h 8 8 13 30 **

Dimensions (approx.) H x W x D (mm) mm 1,236 x 878 x 306 1,236 x 878 x 306 1,236 x 878 x 306 1,550 x 800 x 345 1,300 x 880 x 425

Option: Integrated receiver tank and integrated metering pump with suitable capacity up to 7 bar back pressure. with external receiver module and separate metering pump without cover

Voltage supply Inputs

Outputs

Operating fluids

4-14

Generation capacity g/h 6* 12* 22* 55* 1) 120** 1)

100-230 V, 50/60 Hz 2 freely configurable digital inputs for the functions Pause, High metering, Intermittent metering or Manual metering, as well as an external collective malfunction signal 4 digital inputs for monitoring (warning / empty message) the chemical supply 1 digital input for contact water meter 0.25-20 Hz 1 frequency input for water meter 10-10,000 Hz 1 operating signal relay 1 alarm signal relay 1 warning signal relay 1 voltage output +5 V as supply voltage for a water meter with Hall sensor Sodium chlorite 7.5 %, purity according to EN 938 Hydrochloric acid 9% purity according to EN 939 Potable water Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process Identity code ordering system for Bello Zon速 CDLb chlorine dioxide systems

CDLb ClO2 production capacity 02 CDLb 06 = 6 g/h 04 CDLb 12 = 12 g/h 06 CDLb 22 = 22 g/h 08 CDLb 55 = 55 g/h 10 CDLb 120 = 120 g/h Equipment 0 With receiver tank, pump and multifunctional valve (not for CDLb 120) 1 With receiver tank and pump (not for CDLb 120) 2 With receiver tank, without pump (not for CDLb 120) 3 With 30 l receiver module, without pump Design P ProMinent速 S Switzerland Operating voltage 0 230 V, 50/60 Hz 1 115 V, 50/60 Hz Suction lance, suction assembly 0 None 1 With suction lance 2 With suction lance and collecting pan Pre-set language DE German EN English ES Spanish FR French IT Italian CDLb 04 0 P 0 2 EN

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Swimming pool technology 2013

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4 4.11.1

Disinfection and oxidation process Accessories and Maintenance Sets for CDLa and Bello Zon® CDLb Metering station Corrosion-resistant metering station made of PVC-U or PVC-C for warm water applications with integrated mixer elements and maintenance-free PVDF metering valve. Material

pk_7_066

Metering station CDL DN 50 Metering station CDL DN 65 Metering station CDL DN 80 Metering station CDL DN 100 Metering station CDL DN 65 Metering station CDL DN 80

PVC-U PVC-U PVC-U PVC-U PVC-C PVC-C

installation length mm 450 400 400 470 400 400

Order no. 1027611 1026490 1027612 1034693 1029326 1029327

Temperature/pressure resistance – metering station CDL Water temperature (°C) 40 50 60 70 80

maximum permissible operating pressure (bar) PVC-U PVC-C 12 12 7 9.5 4.5 7.5 – 5 – 3

Pressure relief valve Type MFV pressure relief valve with wall mounting bracket and 6x4 mm hose connection for installation in chlorine dioxide metering line. MFV pressure relief valve with wall mounting bracket

Order no. 1027652

Safety collecting pan for chemical containers Collecting pan with two separate compartments - 1 No. 25 l Bello Zon® acid and 1 No. 10 l Bello Zon® chlorite chemical container. Dimensions (HxWxD): 290 x 700 x 350 mm Safety collecting pan for CDL

Order no. 1026744

Service kits for CDLa The kits contain all parts subject to wear and tear that need to be replaced at regular service intervals. The 1-year kit should be used every year and the 3-year kit in addition every 3 years. 1-year service kit for pressure relief valve

Order no. 1029442

For CDLa with ClO2 pump 1-year service kit for CDL5 3-year service kit for CDL5 1-year service kit for CDL10 3-year service kit for CDL10

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Swimming pool technology 2013

Order no. 1027263 1027417 1031549 1031550

1.3.2013

Disinfection and oxidation process For CDLa without ClO2 pump Order no. 1042829 1042831 1042830 1042832

1-year service kit for CDL5 3-year service kit for CDL5 1-year service kit for CDL10 3-year service kit for CDL10

Maintenance sets for Bello Zon速 CDLb For CDLb with receiver tank, pump and multifunctional valve Annual maintenance kit Annual maintenance kit Annual maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit

Type CDLb 06, CDLb 12 CDLb 22 CDLb 55 CDLb 06, CDLb 12 CDLb 22 CDLb 55

Order no. 1044484 1044501 1044509 1044494 1044502 1044510

For CDLb with receiver tank and pump Annual maintenance kit Annual maintenance kit Annual maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit

Type CDLb 06, CDLb 12 CDLb 22 CDLb 55 CDLb 06, CDLb 12 CDLb 22 CDLb 55

Order no. 1044495 1044503 1044511 1044496 1044504 1044512

For CDLb with receiver tank without pump Annual maintenance kit Annual maintenance kit Annual maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit

Type CDLb 06, CDLb 12 CDLb 22 CDLb 55 CDLb 06, CDLb 12 CDLb 22 CDLb 55

Order no. 1044497 1044505 1044513 1044498 1044506 1044514

For CDLb with 30 l receiver module without pump Annual maintenance kit Annual maintenance kit Annual maintenance kit Annual maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit 3-yearly maintenance kit

1.3.2013

Type CDLb 06, CDLb 12 CDLb 22 CDLb 55 CDLb 120 CDLb 06, CDLb 12 CDLb 22 CDLb 55 CDLb 120

Swimming pool technology 2013

Order no. 1044499 1044507 1044515 1044517 1044500 1044508 1044516 1044519

4-17

Disinfection and oxidation process

4.12

Bello Zon® Chlorine Dioxide Plants Type CDVc Connection-ready, Bello Zon® CDVc chlorine dioxide systems are used in the production, metering and monitoring of 20 to 2,000 g/h of chlorine dioxide made from dilute base chemicals. A completely newly developed reactor concept ensures the innovative production and metering of chlorine dioxide. PVDF is used for the first time instead of the PVC used hitherto in the industry. This results in improved operating safety and higher purity of the generated chlorine dioxide. The stroke lengths of the latest generation of ProMinent® metering pumps are continuously monitored. Impermissible operating statuses arising from incorrect pump stroke length adjustments can thus be ruled out. The central system control manages the precise production of chlorine dioxide. DULCOTEST® chlorine dioxide, chlorite, pH or ORP sensors can be directly connected via the twin mA inputs. The chlorine dioxide in the treated water, as well as its main by-product chlorite, can thus be monitored and documented online. The chlorine dioxide concentrations in the water can be adjusted automatically depending on the measurement using the integrated PID controller. All status messages and measured values are documented in the integrated data logger and visualised in the clear colour display via the screen plotter. The systems meet all the requirements of the DVGW specifications W 224 and W 624 with regard to design and operation and are designed for operation using the pre-diluted chemicals Bello Zon® chlorite (7.5 % NaClO2) and acid (9 % HCl).

P_PMA_BEZ_0009_SW CDVc 20-120 (figure shows optional configuration)

Advantages Efficient operation, thanks to production, metering, and monitoring of ClO2 using just one system Maximum operating safety and purity of the CIO2 produced by the use of PVDF reactors Highest operating safety, thanks to stroke length-monitored pumps Perfect quality management, thanks to integrated storage of all operating parameters and measured values 쮿 Automatic monitoring of operating parameters and maintenance dates 쮿 Easy and safe operation thanks to clearly laid-out menu navigation in plain text 쮿 쮿 쮿 쮿

Features 쮿 쮿 쮿 쮿 쮿

Capacity range: 20-2,000 g/h ClO2 PVDF reactor Stroke length monitoring for metering pumps Control with large colour display, integrated data logger and screen plotter Measurement, documentation, and visualisation of ClO2 and chlorite or ORP

Technical Data Type

CDVc 20 CDVc 45 CDVc 120 CDVc 240 CDVc 600 CDVc 2000

Chlorine dioxide dosing capacity* min.-max./ hour g/h 1–20 2–45 6–120 12–240 30–600 100–2,000

min./ day g/d 6.4 16.0 40.0 80.0 140.0 468.0

Max. operating pressure**

Operating temp.

bar 8 8 8 8 8 5

°C 10–40 10–40 10–40 10–40 15–40 15–40

Hose connection Dimensions*** dimensions of H x W x D (mm) metering pumps

6x4 6x4 6x4 8x5 8x5 DN 10

mm 1,344 x 1,002 x 200 1,344 x 1,002 x 200 1,344 x 1,002 x 200 1,342 x 1,000 x 248 1,711 x 1,200 x 273 1,900 x 1,400 x 370

Weight***

kg 26 27 28 45 75 120

Power consumption (max.) **** 230 V 115 V A 2.7 2.7 2.7 2.7 2.8 4.1

A 0.9 0.9 0.9 1.2 1.4 3.2

The metering figures relate to 5 bar back pressure and an ambient temperature of 20 °C. The minimum capacity/per hour is based on the fact that when the system is operating at below 5 % of the nominal power, continuous metering is no longer possible because of the correspondingly low pumping frequency of the metering pumps. When systems are not operating continuously, the reactor contents should be changed at least twice daily. The system should not, therefore, be operated below the stated minimum capacity/day. ** at 35 °C ambient temperature *** without bypass pump, flushing valve and water supply line **** 230 V values with bypass pump, 115 V values without bypass pump

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Swimming pool technology 2013

1.3.2013

4 4.12.1

Disinfection and oxidation process Identcode Ordering System for CDVc Plants

CDVc System type, metering output ClO2 02 CDVc 20= 20 g/h 04 CDVc 45= 45 g/h 06 CDVc 120= 120 g/h 08 CDVc 240= 240 g/h 10 CDVc 600= 600 g/h 14 CDVc 2000= 2,000 g/h Type P ProMaqua Power supply U 100-230 V ± 10 %, 50/60 Hz A 230 V ± 10 %, 50/60 Hz B 100-115 V ± 10 %, 50/60 Hz (not available for version with „bypass“ 04) Bypass version 02 Bypass PVC-U with float flow meter 04 Bypass PVC-U with float flow meter and bypass pump (not CDVc 2000) Calibration device 0 Without calibration device, but with measuring cylinder 1 With calibration device Suction lance, suction fitting, chemicals 0 none 1 Suction lance for 5-60 l container (only CDV 20-600) 2 Suction lance for 200 l container (only CDV 20-600) 3 Flexible suction fitting up to 5 m with two-phase level switch (only CDV 20-600 g/h) 4 Suction lance for 25 l tank with 2 drip pans 40 l without leakage sensor (only CDV 20-600 g/h) Mechanical design 0 Standard Preset language DE German EN English FR French IT Italian ES Spanish Control 0 Basic version 1 With measuring and control properties (only in connection with version inputs and outputs 1 or 3) 2 With measuring and control properties, data logger and screen recorder (only in connection with version inputs and outputs 1 or 3) Extended inputs and outputs 0 none 1 2 analogue inputs, freely configurable for controller output and flow rate 2 1 analogue output, freely configurable 3 2 analogue inputs and 1 analogue output, freely configurable Communication interfaces 0 Standard Approvals 01 CE-mark Temperature monitoring 0 without temperature monitoring Hardware 0 Standard Software 0 Standard CDVc 04 P U 02 1 1 0 EN 1 2 0 01 0 0 0

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Swimming pool technology 2013

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4 4.12.2

Disinfection and oxidation process Spare Parts Kits for Bello Zon速 Chlorine Dioxide Plants Type CDV The spare parts kits include all parts subject to wear, which need to be replaced in the course of regular maintenance.

Spare parts kit for CDVc plants Spare parts kit complete for CDVc 20 Spare parts kit complete for CDVc 45 Spare parts kit complete for CDVc 120 Spare parts kit complete for CDVc 240 Spare parts kit complete for CDVc 600 Spare parts kit complete for CDVc 2000

Order no. 1034758 1034759 1034760 1034761 1034762 1034763

Spare parts kits for CDVb plants Spare parts kit complete for CDVb 15 Spare parts kit complete for CDVb 35 Spare parts kit complete for CDVb 60 Spare parts kit complete for CDVb 120 Spare parts kit complete for CDVb 220

Order no. 1022252 1022253 1022264 1022265 1024614

Spare parts kits for CDVa plants Spare parts kit complete for 230 V CDVa 35 Spare parts kit complete for 230 V CDVa 60 Spare parts kit complete for 230 V CDVa 120 Spare parts kit complete for 230 V CDVa 220 Spare parts kit complete for 230 V CDVa 400 Spare parts kit complete for 230 V CDVa 600 Spare parts kit complete for 230 V CDVa 2000 Spare parts kit complete for 115 V CDVa 35 Spare parts kit complete for 115 V CDVa 60 Spare parts kit complete for 115 V CDVa 120 Spare parts kit complete for 115 V CDVa 220 Spare parts kit complete for 115 V CDVa 400 Spare parts kit complete for 115 V CDVa 600 Spare parts kit complete for 115 V CDVa 2000

Order no. 791842 791913 791915 740824 740765 740826 1005333 791860 791914 791916 740825 740819 740827 1005344

Additional spare parts are listed in the operation instructions for the plants.

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Swimming pool technology 2013

1.3.2013

Disinfection and oxidation process

4.13

Safety equipment

4.13.1

Safety packages A Safety technology for the metering of chemicals, comprising: 쮿 쮿 쮿 쮿

Half mask Rubber apron Rubber gloves Rubber boots (specify size when ordering) Order no. DSP 2002 1

Half mask P_AC_0215_SW

4.13.2

Safety packages B Safety technology for the metering of chemicals, comprising: Accessories as with Safety package "A" 쮿 쮿 쮿 쮿

Facial protective mask Rubber apron Rubber gloves Rubber boots (specify size when ordering) Facial protective mask

Order no. DSP 2002 2

P_AC_0214_SW

4.13.3

Safety packages C Eye rinsing bottle with wall bracket Wall box with two eye rinsing bottles (2 x 0.5 litres) stored in a sturdy wall box. Can be opened and removed using one hand. Contamination of the bottles is prevented by the wall box. Eye rinsing bottle

Order no. DSP 2002 3

P_AC_0216_SW

4.13.4

Warning labels for a chemical metering station Set consisting of: 쮿 쮿 쮿 쮿

1 label "No naked flames" 1 label "Wear eye protection" 1 label "Wear protective gloves" 1 label "Warning against noxious substances"

(Labels) Order no. DSP - W 2002 1

Warning labels

1.3.2013

Swimming pool technology 2013

4-21

Individual devices and accessories

5.1

Peristaltic pumps

5.1.1

DULCO®flex DF2a

5.0.1Swimming pool technology 2013

쮿 쮿 쮿 쮿 쮿 쮿 쮿

Capacity range 0.4-2.4 l/h at max. 1.5 bar back pressure Hose material: Tygon® or PharMed® Control and/or quantity control via mains ON/OFF Practically silent operation Self-priming against max. 1.5 bar Gentle metering Sprung rollers for constant rolling pressure and extended service life of hose

The DULCO®flex is a peristaltic pump. The metering chemical is displaced in the direction of flow as rotor squeezes the hose. No valves are required which ensures that the chemical is treated gently. Typical applications are processes in which only a limited feed pressure is required such as the metering of conditioning agents in private pools. The robust, chemical-resistant PPE housing is protected on all sides from spray (IP 65), which guarantees its universal application capability. OEM versions are available on request.

pk_1_130

Technical Data Type 0204 0208 0216 0224

bar 1.5 1.5 1.5 1.5

Capacity l/h 0.4 0.8 1.6 2.4

Frequency rpm 5 10 20 30

Admissible ambient temperature: Power consumption approx.: Switching duration: Enclosure rating:

1.3.2013

Connector size o dia. x i dia. 6x4/10x4 6x4/10x4 6x4/10x4 6x4/10x4

Suction lift mWC 4 4 4 4

Intake head m WC 3 3 3 3

10-45 °C 5W 100 % IP 65

Swimming pool technology 2013

5-1

Individual devices and accessories Spare hose set, complete, PharMed® Spare hose set Tygon® replacement hose compl. Viton® Union nut 6 x 4 Union nut 10 x 4

5.1.2

Order no. 1009480 1009481 1023842 1009968 1008908

Identcode Ordering System DULCO®flex System DF2a

DF2a Type 0204 0208 0216 0224

DF2a 0204

Capacity bar l/h 1.5 0.4 1.5 0.8 1.5 1.6 1.5 2.4 Hose material P PharMed® T Tygon® V Viton® for fragrances (special version) Version 0 With ProMinent® logo 1 Without ProMinent® logo Hydraulic connectors 0 Connector for hose 6/4 mm priming and discharge side 9 Connector for hose 10/4 mm discharge side only Power supply A 230 V ± 10 %, 50/60 Hz B 115 V ± 10 %, 50/60 Hz Cable and plug 0 No mains lead 1 With 2 m mains lead, open ended A With mains cable, European plug Drive 0 Mains ON/OFF Installation W Wall mounted Accessories 0 No accessories T 0 0 A 0 0 W 0

Tygon®, Viton® and PharMed® are registered trademarks

5-2

Swimming pool technology 2013

1.3.2013

5 5.1.3

Individual devices and accessories DULCO®flex DF3a fragrance metering pump 쮿 쮿 쮿 쮿 쮿 쮿 쮿

P_DX_0003_SW

Technical Data Type 0204 0208 0216 0224

bar 1.5 1.5 1.5 1.5

Capacity l/h 0.4 0.8 1.6 2.4

Permissible ambient temperature: Approx. power consumption: Switching duration: Enclosure rating:

Frequency rpm 5 10 20 30

Connector size o dia. x i dia. 6x4 6x4 6x4 6x4

Suction lift mWC 4 4 4 4

Intake head m WC 2 2 2 2

10-45 °C 24 W 100 % IP 65

All data refers to water at 20 °C. replacement hose compl. Viton®

1.3.2013

Swimming pool technology 2013

Order no. 1023842

5-3

5 5.1.4

Individual devices and accessories Identcode Ordering System DULCO®flex system DF3a

DF3a Application D Fragrance dosing Installation W Wall mounting Version 0 with LCD, with ProMinent® logo 1 with LCD, without ProMinent® logo Type Capacity bar l/h 0204 1.5 0.4 0208 1.5 0.8 0216 1.5 1.6 0224 1.5 2.4 Hose material V Viton® Hydraulic connectors 0 Standard 9 Special connection 10x4 pressure side Power supply A 230 V, 50/60 Hz B 115 V, 50/60 Hz Cable and plug 0 Without cable 1 With cable 2.0 m; open end A With cable 2.0 m; Euro connector B With cable 2.0 m; Swiss connector Accessories 0 Without accessories 1 Metering valve and foot valve; suction and discharge line Hardware-flaring 0 None Language 00 Language-neutral Relay 0 Without relay Application relais 0 None 1 Solenoid valve 2 Solenoid valve + pump 2 3 Solenoid valve + pump 2 + pump 3 Control Variants 0 External contact Pause/level 0 Pause break contact + level break contact 1 Pause make contact + level break contact 2 Pause break contact + level make contact 3 Pause make contact + level make contact Approvals 01 CE-Symbol DF3a D W 0 0204 V 0 A 0 0 0 00 0 0 0 0 01

Viton® is a registered trademark.

5-4

Swimming pool technology 2013

1.3.2013

5 5.1.5

Individual devices and accessories DULCO®flex DF4a 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Feed rate range 0.4 - 12 l/h, 4 - 2 bar Hose material PharMed® and Tygon® Powerful stepper motor, speed-controllable Continuous adjustment of the metering rate manually or externally through contact or analogue signal 0/4-20 mA Suction function (high speed) Sprung rollers for constant rolling pressure and increased service life of the hose Switchable output change, e.g. increase when needed or off-peak reduction Display of the metering rate in l/h Reversible direction of rotation, e.g. backflushing (active carbon only) Housing IP rating IP 65 pursuant to DIN EN 60529

쮿 Pump type 04004 with 0.5 l/h at 4 bar The DULCO®flex DF4a was developed for the dosing of chemicals in the swimming pool sector. It is offered in three versions and both the operating menu as well as the inputs and outputs are coordinated to the respective application. 1 "Chemical pump" as a volume-adjustable dosing pump for general applications. 2 "Metering of active carbon" with reversible direction of rotation for backflushing the hose over the entire output range. 3 "Metering of flocculants" from approx. 5 ml/h of continuous capacity. Up to two auxiliary inputs can be configured, enabling an increase in capacity in the event of a sudden rise in load as well as night setback of dosing volume. The dosing volume can either be set to l/h in the display or specified via external control signals. The pumps can process contact signals as well as analogue signals, for instance 0/4 - 20 mA or 0 - 10 V. The pump can be used for a wide range of different metering tasks thanks to its universal controllability and four power stages.

P_DX_0006_SW

1.3.2013

Swimming pool technology 2013

5-5

Individual devices and accessories

5.1.6

Identcode Ordering System DULCO®flex system DF4a

DF4a Application 0 Chemical pump A Active carbon metering F Flocculant metering Installation W Wall mounting Version 0 With ProMinent® logo 1 Without ProMinent® logo Type Capacity bar l/h 04004 4.0 0.5 04015 4.0 1.5 03060 2.5 6.0 02120 2.0 12.0 Hose material P PharMed® T Tygon®, not for type 04004 Hydraulic connectors 0 Standard connection 6x4 9 Special connection 10x4 pressure side Power supply U 100 - 240 VAC, 50/60 Hz Cable and plug 0 Without cable 1 With cable 2.0 m; open end A With cable 2.0 m; Euro connector B With cable 2.0 m; Swiss connector Accessories 0 Without accessories 2 with lip-seal metering valve PCB and 10 m PE metering line Hardware-flaring 0 None Language default 00 Language-neutral Relay 1 Fault signalling relay, drop-out action 3 Fault signalling relay, pick-up action Control Variants 0 manual + external contact 2 manual + external contact and analogue 0/4 - 20 mA 8 manual + external contact and analogue 0/4 - 20 mA + 0 - 10 V C as "8" and CANopen D such as "8" and CANopen and CAN connector Further input 1 Pause + 2-stage level + AUX1 2 Pause + 1-stage level + AUX1 + AUX2 Pause/level 0 Pause break contact + level break contact Approvals 01 CE-Symbol DF4a F W 0 04015 P 0 U A 0 0 00 1 0 1 0 01

Tygon® and PharMed® are registered trademarks. Priming lift Suction lift Speed Permissible ambient temperature:

3 mWS 4 mWS 0 - 85 RPM 10-45 °C

Approx. power consumption: Switching duration: Degree of protection:

24 W 100 % IP 65

All data refers to water at 20 °C.

Spare hoses for type 04004 PharMed® for type 04015 PharMed® for type 04015 Tygon® for type 03060 PharMed® for type 03060 Tygon® for type 02120 PharMed® for type 02120 Tygon® 5-6

Swimming pool technology 2013

Order no. 1034997 1030722 1030775 1030723 1030776 1030774 1030777 1.3.2013

Individual devices and accessories

5.2

Metering pumps

5.2.1

Beta® b Solenoid Diaphragm Metering Pumps 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Capacity range of 0.74-32 l/h, 25-2 bar Continuous stroke length adjustment of from 0-100 % (recommended 30-100 %) Supplied in PP, Acrylic, PVDF, PTFE, stainless steel Patented deaeration for PP, Acrylic and PVDF Self-deaerating liquid end type in PP and Acrylic HV liquid end for highly viscous media Power supply 100 - 230 V as standard 10-setting stroke frequency adjustment from 10-100 % External control via volt-free contacts with pulse multiplication and pulse division Connector for 2-stage level switch 3 LED display for operation, warning and fault indication

P_BE_0048_SW Beta® b

Microprocessor-controlled solenoid diaphragm pump with operating, warning and empty signal lamps and plug-in connection (round plug) for level switch for pre-warning and empty signal, 5-pin connecting socket for external cable, internal operation with 10-stage frequency setting, external operation via potential-free contacts, pressure limited to 4 bar, 180 stokes / min.

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Swimming pool technology 2013

5-7

Individual devices and accessories Technical Data

Pump type

Delivery rate at max. Delivery rate at back pressure medium back pressure

Number of strokes

Connection Suction size lift o∅xi∅

bar

Strokes/ min

l/h

ml/ stroke

bar

l/h

ml/ stroke

Beta® b BT4b 1000*** 10 0.74 0.07 5.0 0.82 BT4b 1601*** 16 1.10 0.10 8.0 1.40 BT4b 1602*** 16 2.20 0.20 8.0 2.50 BT4b 1604*** 16 3.60 0.33 8.0 4.30 BT4b 0708*** 7 7.10 0.66 3.5 8.40 BT4b 0413 4 12.30 1.14 2.0 14.20 BT4b 0220 2 19.00 1.76 1.0 20.90 BT5b 2504 25 2.90 0.27 10.0 5.00 BT5b 1008 10 6.80 0.63 5.0 8.30 BT5b 0713 7 11.00 1.02 3.5 13.10 BT5b 0420 4 17.10 1.58 2.0 19.10 BT5b 0232 2 32.00 2.96 1.0 36.20 Beta® b metering pumps with self-degassing liquid end BT4b 1601 16 0.59 0.06 8.0 0.78 BT4b 1602 16 1.40 0.13 8.0 1.70 BT4b 1604 16 2.70 0.25 8.0 3.60 BT4b 0708 7 6.60 0.61 3.5 7.50 BT4b 0413 4 10.80 1.00 2.0 12.60 BT4b 0220 2 16.20 1.50 1.0 18.00 BT5b 1008 10 6.30 0.58 5.0 7.50 BT5b 0713 7 10.50 0.97 3.5 12.30 BT5b 0420 4 15.60 1.44 2.0 17.40

mWC

Average Shipping power weight consumption PP, NP, SS PV, TT W kg kg

0.08 0.13 0.24 0.40 0.78 1.31 1.94 0.46 0.76 1.21 1.77 3.35

180 180 180 180 180 180 180 180 180 180 180 180

6x4 6x4 6x4 6x4 8x5 8x5 12 x 9 8 x 4**** 8x5 8x5 12 x 9 12 x 9

6.0** 6.0** 6.0** 6.0** 6.0** 3.0** 2.0** 6.0** 6.0** 4.0** 3.0** 2.0**

7,2 9,6 11,2 15,2 15,2 15,2 15,2 19,2 19,2 19,2 19,2 19,2

2.9 2.9 2.9 3.1 3.1 3.1 3.3 4.5 4.5 4.5 4.7 5.1

3.6 3.6 3.6 3.9 3.9 3.9 4.4 5.3 5.3 5.3 5.8 6.6

0.07 0.16 0.33 0.69 1.17 1.67 0.69 1.14 1.61

180 180 180 180 180 180 180 180 180

6x4 6x4 6x4 8x5 8x5 12 x 9 8x5 8x5 12 x 9

1.8** 2.1** 2.7** 2.0** 2.0** 2.0** 3.0** 2.5** 2.5**

9,6 11,2 15,2 15,2 15,2 15,2 19,2 19,2 19,2

2.9 2.9 3.1 3.1 3.1 3.3 4.5 4.5 4.7

– – – – – – – – –

Beta® b pumps with liquid ends for highly viscous media have 10-20 % less metering capacity and are not self-priming. G 3/4-DN connector with d16-DN10 nozzle union. *

The values given in the capacity data tables are assured minimum values, using water at room temperature. Bypass connection on self-venting liquid end 6x4 mm. ** Suction lift readings when liquid end and suction tubing are full, or for self-degassing liquid end when the suction tubing contains air. *** Reduced pressure 4, 7 and 10 bar pump types are available for specialised applications, e.g. for use in swimming pool systems. Further information on request. **** 6 mm inner diameter in stainless steel version. All data refers to water at 20 °C

Materials in contact with the medium PPE PPB PPT NPE NPB NPT PVT TTT SST

liquid end Polypropylene Polypropylene Polypropylene Acrylic Acrylic Acrylic PVDF PTFE with carbon stainless steel no 1.4404

suction/pressure connector Polypropylene Polypropylene PVDF PVC PVC PVDF PVDF PTFE with carbon stainless steel no 1.4404

ball seal EPDM FPM PVDF EPDM FPM PVDF PVDF ceramic ceramic

seals EPDM FPM PTFE EPDM FPM PTFE PTFE PTFE PTFE

balls ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic ceramic

Only the self-degassing version available in PPE, PPB, NPE and NPB. Supplied with Hastelloy valve springs, PVDF valve core. Dosing diaphram with PTFE-coating. FPM = Fluorine Rubber Reproducible dosing accuracy ±2 % under correct conditions (see operating instructions). Ambient temperature -10 °C to +45 °C. Type of enclosure:

IP 65, insulation class F

Metering pumps supplied with mains power cable, hose/pipe connector set as tables.

5-8

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1.3.2013

5 5.2.2

Individual devices and accessories Identcode Ordering System

BT4b Type Capacity bar l/h 1000 10 0.74 1601 16 1.10 1602 16 2.20 1604 16 3.60 0708 7 7.10 0413 4 12.30 0220 2 19.00 BT5b 2504 25 2.90 1008 10 6.80 0713 7 11.00 0420 4 17.10 0232 2 32.00 Liquid end/valve material PP Polypropylene/PVDF, for version self-degassing Polypropylene/Polypropylene NP Acrylic glass/PVDF, for version self-degassing Acrylic glass/PVC PV PVDF/PVDF TT PTFE/PTFE SS Stainless steel 1.4404/1.4404 Seal/diaphragm material E EPDM/PTFE coated, only for PP and NP self-degassing B FPM-B/PTFE coated, only on PP and NP self-degassing T PTFE/PTFE coated S Diaphragm additionally with FPM coating for siliceous media Liquid end version 0 Non-bleed version, no valve spring, for TT, SS and type 0232 only 1 Non-bleed version, with valve spring, for TT, SS and type 0232 only 2 With deaerator, no valve spring, PP, PV, NP only, not type 0232 3 With deaerator, with valve spring, PP, PV, NP only, not type 0232 4 version for highly viscous media, only PVT, types 1604, 0708, 1008, 0413, 0713, 0220, 0420 9 self-degassing for PP, NP only, not for types 1000 and 0232 Hydraulic connections 0 Standard according to technical data 5 Connector for 12/6 hose, delivery side only 9 Connector for 10/4 hose, delivery side only Version 0 Standard Logo 0 with ProMinentÂŽ logo Power supply U 100-230 V Âą 10 %, 50/60 Hz M 12 V DC (only BT4b) N 24 V DC Cable and plug A 2 m European B 2 m Swiss C 2 m Australian D 2 m USA 1 2 m, open-ended Relay 0 No relay 1 Fault indicating relay, normally energised, 1 x changeover contact 230 V - 2 A 3 Fault indicating relay, normally de-energised, 1 x changeover contact 230 V -2A 4 as 1 + pacing relay 2 x normally open contacts 24 V - 100 m 5 as 3 + pacing relay 2 x normally open contacts 24 V - 100 mA Accessories 0 No accessories 1 With foot and dosing valve, 2 m PVC suction tubing, 5 m PE discharge tubing Control type 0 No lock 1 With lock: manual operation locked when external cable plugged in Control Variants 0 Standard Options on request 00 No options BT4b 1602 PP E 2 0 0 0 U A 0 0 0 0 00

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Swimming pool technology 2013

5-9

Individual devices and accessories Plexiglas version for chlorine products / acid / alkali Capacity bar 4.0 4.0 4.0 4.0 4.0

l/h 0.8 1.5 2.8 5.3 8.3

Connector size o dia. x i dia. 6x4 6x4 6x4 8x5 8x5

Order no. BT4b 0400 PVT 2900UA001000 BT4b 0401 PVT 2900UA001000 BT4b 0402 PVT 2900UA001000 BT4b 0404 PVT 2900UA001000 BT4b 0408 PVT 2900UA001000

Plexiglas version for chlorine products, self-bleeding Capacity bar 4.0 4.0 4.0

l/h 0.9 2.1 4.2

Connector size o dia. x i dia. 6x4 6x4 8x5

Order no. BT4b 0401 NPB 9900UA001000 BT4b 0402 NPB 9900UA001000 BT4b 0404 NPB 9900UA001000

Spare parts kit

5-10

Type BT4b 0400 PVT BT4b 0401 PVT BT4b0402 PVT BT4b 0404 PVT BT4b0408 PVT

Order no. 1023107 1023108 1023109 1035332 1023111

Type BT4b 0401 NPB BT4b 0402 NPB BT4b 0405 NPB

Order no. 1001722 1001723 1001724

Swimming pool technology 2013

1.3.2013

5 5.2.3

Individual devices and accessories Beta® 4a diaphragm metering pumps with CAN bus interface

pk_1_004_1

쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

1.3.2013

CANopen bus interface for DULCOMARIN®II Feed rate range 0.74…32 l/h, 16…2 bar Stroke length continuously adjustable between 0 - 100 % (recommended 30 - 100 %) Transmission of the stroke length setting from the DULCOMARIN® II Material versions PP, plexiglass/PVC Patented coarse / fine bleed valve for PP and plexiglass/PVC Self-bleeding liquid end version in PP and plexiglass/PVC Port for 2-phase level switch Version for extra-low voltage 12/24 V DC, 24 V AC 4 LED display for operation, warning and error messages Alarm for stroke length changes > ± 10 % Transmission of level alarm without alarm relay via the bus

Swimming pool technology 2013

5-11

5 5.2.4

Individual devices and accessories gamma/ L Solenoid Diaphragm Metering Pumps 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Capacity range 0.74-32 l/h, 16-2 bar Continuous stroke length adjustment from 0-100 % (recommended 30-100%) Material options: PP, PVDF, Acrylic/PVC, PVDF, PTFE, stainless steel Patented bleeding on PP, PVDF and Acrylic/PVC versions Self-bleeding liquid end version in PP and Acrylic/PVC HV liquid end for highly viscous media Digitally accurate stroking rate via keypad and large LCD display Select feed rate display in strokes/min. or l/h Programmable pressure levels Dosing monitor input, adjustable error stroke counter External control via voltage free contact with optional increase/decrease pulse function Optional external control via standard signal 0/4-20 mA Interface for PROFIBUS® DP Connector for 2-stage level switch Optional 14-day process timer 12-24 V DC, 24 V AC low voltage version 3 LED display for operation, warning and fault indication Concentration entry option for proportional flow dosing Option 4-20 mA output corresponds to the product of stroke length and stroke frequency Power relay, especially in combination with the process timer for switching higher powers (230 V-8 A)

pk_1_005

5-12

Swimming pool technology 2013

1.3.2013

Individual devices and accessories Technical Data

Pump type

Delivery rate at max. back pressure

bar

l/h

ml/ stroke

Delivery rate at Number medium back of strokes pressure bar

l/h

ml/ stroke

gamma/ L GALa 1000 10 0.74 0.07 5.0 0.82 0.08 GALa 1601 16 1.10 0.10 8.0 1.40 0.13 GALa 1602 16 2.10 0.19 8.0 2.50 0.24 GALa 1005 10 4.40 0.41 5.0 5.00 0.46 GALa 0708 7 7.10 0.66 3.5 8.40 0.78 GALa 0413 4 12.30 1.14 2.0 14.20 1.31 GALa 0220 2 19.00 1.76 1.0 20.90 1.93 GALa 1605 16 4.10 0.38 8.0 4.90 0.45 GALa 1008 10 6.80 0.63 5.0 8.30 0.76 GALa 0713 7 11.00 1.02 3.5 13.10 1.21 GALa 0420 4 17.10 1.58 2.0 19.10 1.77 GALa 0232 2 32.00 2.96 1.0 36.20 3.35 gamma/ L metering pumps with self-degassing liquid end* GALa 1601 16 0.59 0.06 8.0 0.78 0.07 GALa 1602 16 1.40 0.13 8.0 1.70 0.16 GALa 1005 10 3.60 0.33 5.0 4.00 0.37 GALa 0708 7 6.60 0.61 3.5 7.50 0.69 GALa 0413 4 10.80 1.00 2.0 12.60 1.17 GALa 0220 2 16.20 1.50 1.0 18.00 1.67 GALa 1605 16 3.30 0.31 8.0 3.80 0.35 GALa 1008 10 6.30 0.58 5.0 7.50 0.69 GALa 0713 7 10.50 0.97 3.5 12.30 1.14 GALa 0420 4 15.60 1.44 2.0 17.40 1.61

Strokes/ min

Connection size Suction lift o∅xi∅

Shipping weight SS

mWC

PP, NP, PV, TT kg

180 180 180 180 180 180 180 180 180 180 180 180

6x4 6x4 6x4 8 x 5*** 8x5 8x5 12 x 9 8 x 5*** 8x5 8x5 12 x 9 12 x 9

6.0** 6.0** 6.0** 6.0** 6.0** 3.0** 2.0** 6.0** 6.0** 4.0** 3.0** 2.0**

2.9 2.9 2.9 3.1 3.1 3.1 3.3 4.5 4.5 4.5 4.7 5.1

3.6 3.6 3.6 3.9 3.9 3.9 4.4 5.3 5.3 5.3 5.8 6.6

180 180 180 180 180 180 180 180 180 180

6x4 6x4 8x5 8x5 8x5 12 x 9 8x5 8x5 8x5 12 x 9

1.8** 2.1** 2.7** 2.0** 2.0** 2.0** 3.0** 3.0** 2.5** 2.5**

2.9 2.9 3.1 3.1 3.1 3.3 4.5 4.5 4.5 4.7

– – – – – – – – – –

gamma/ L pumps with liquid ends for highly viscous media have 10-20 % less metering capacity and are not self-priming. G 3/4-DN connector with d16-DN10 nozzle union. *

The values given in the capacity data tables are assured minimum values, using medium hardness water at room temperature. Bypass connection on self-venting liquid end 6x4 mm. ** Suction lift readings when liquid end and suction tubing are full, or for self-degassing liquid end when the suction tubing contains air. *** 6 mm inner diameter in stainless steel version. All data refers to water at 20 °C

Materials in contact with the medium liquid end PPE PPB NPE NPB PVT TTT SST

Polypropylene Polypropylene Acrylic Acrylic PVDF PTFE with carbon stainless steel no. 1.4404

suction/pressure connector Polypropylene Polypropylene PVC PVC PVDF PTFE with carbon stainless steel no. 1.4404

ball seal

seals

balls

EPDM FPM EPDM FPM PVDF ceramic ceramic

EPDM FPM-B EPDM FPM-B PTFE PTFE PTFE

ceramic ceramic ceramic ceramic ceramic ceramic ceramic

Self-degassing version available in PP and NP only. Supplied with Hastelloy valve springs, PVDF valve core. Dosing diaphram with PTFE-coating. FPM = Fluorine Rubber Reproducible dosing accuracy ±2 % under correct conditions (see operating instructions). Ambient temperature -10 °C to +45 °C Medium power consumption: Type 1000-0220: 17 W, Type of enclosure: IP 65, insulation class F

Type 1605-0232: 22 W

Metering pumps supplied with mains power cable, hose/pipe connector set as tables.

1.3.2013

Swimming pool technology 2013

5-13

Individual devices and accessories

5.2.5 GALa Type 1605 1602 1601

GALa 1602 5-14

Identcode Ordering System

gamma/ L, Version a Capacity bar l/h 16 4.10 16 2.10 16 1.10

1008 1005 1000

bar 10 10 10

l/h 6.80 4.40 0.74

0713 0708

bar 7 7

l/h 11.00 7.10

0420 0413 0232 0220

bar 4 4 2 2

l/h 17.10 12.30 32.00 19.00

Liquid end/valves material PP Polypropylene/Polypropylene NP Acrylic glass/PVC PV PVDF/PVDF TT PTFE/PTFE SS Stainless steel 1.4404/1.4404 Seals/diaphragm material E EPDM/PTFE coated, only for PP and NP B FPM-B/PTFE coated, only on PP and NP T PTFE/PTFE coated, only on PV, TT and SS S Diaphragm additionally with FPM coating for siliceous media, FPMB seals on PP and NP, PTFE on TT, PV and SS Liquid end version 0 Non-bleed version, no valve spring, for NP, TT and SS and type 0232 only 1 Non-bleed version, with valve spring, for NP, TT and SS and type 0232 only 2 Bleed function, no valve springs for PP, PVT, NP, not type 0232 3 Bleed function, with valve springs for PP, PVT, NP, not type 0232 4 version for highly viscous media, only PVDF, types 1005, 1605, 0708, 1008, 0413, 0713, 0220, 0420 9 self-degassing for PP, NP only, not for types 1000 and 0232 Hydraulic connections 0 Standard according to technical data 5 Delivery side connection for hose 12/6, suction side standard 9 Delivery side connection for hose 10/4, suction side standard Version 0 With ProMinent® logo Power supply U 100-230 V, ±10 %, 50/60 Hz M 12-24 V DC ±10 %,types 1000-0220 only N 24 V DC ±10 %,types 1605-0232 only P 24 V AC ± 10 % all types Cable and plug A 2 m European B 2 m Swiss C 2 m Australian D 2 m USA 1 2 m, open-ended Relay 0 No relay 1 Fault indicating relay, normally energised, 1 x changeover contact 230 V - 2 A 3 Fault indicating relay, normally de-energised, 1 x changeover contact 230 V - 2 A 4 as 1 + pacing relay 2 x normally open contacts 24 V - 100 mA 5 as 3 + pacing relay 2 x normally open contacts 24 V - 100 mA A Disconnect and warning relay, normally energised 2 x normally open contacts 24 V - 100 mA C as 1 + 4-20 mA output 1 x normally open contact 24 V - 100 mA G Power relay, normally de-energised, 1 x changeover contact 230 V - 8 A Accessories 0 No accessories 1 With foot valve and delivery valve, 2 m PVC suction tubing, 5 m PE delivery tube, for PP, PV and NP only 2 As 0 + calibrating cylinder 3 As 1 + calibrating cylinder Control variant 0 Manual + external 1:1 1 Manual + external with pulse control 2 Manual + external 1:1 + analogue current 3 Manual + external with pulse control + analogue 0/4 - 20 mA 4 as 0 + 14-day process timer 5 as 3 + 14-day process timer 7 as 1 + concentration entry 8 as 3 + concentration entry R as 3 + PROFIBUS® DP interface, M12 – no relay with PROFIBUS® version Access code 0 No access code 1 With access code Metering monitor 0 Pulse signal input Pause/level 0 Pause N/C, level N/C PP E 2 0 0 U A 0 0 0 0 0 0 Swimming pool technology 2013

1.3.2013

5 5.2.6

Individual devices and accessories delta® Diaphragm Metering Pumps with Controlled Solenoid Drive 쮿 Continuous or pulsing operation 쮿 Adaptation of the pump to the feed chemical 쮿 Detection of blocked metering points, broken metering lines and trapped air or gas bubbles in the liquid end by the integral injection point monitor optoGuard®. 쮿 Feed rate range 7.5 - 75 l/h, 25 - 2 bar 쮿 Large adjustment range: continuous 1:1,800, discontinuous 1:36,000 쮿 Stroke length continuously adjustable between 0 - 100 % (recommended 30 - 100 %) 쮿 Material versions PVDF, acrylic glass/PVC and stainless steel 쮿 Patented bleed 쮿 Diaphragm rupture detection and signalling (optional) 쮿 Adjustment and display of the feed rate, either as strokes/min or l/h via the keyboard 쮿 Large illuminated graphic display 쮿 External activation via potential-free contacts with pulse step-up and step-down 쮿 Option of external activation by standard signal 0/4-20 mA 쮿 Interface for PROFIBUS® or CANopen (optional) 쮿 Optional 4-week process timer for time- and event-dependent metering tasks (optional) 쮿 Connection for 2-stage level switch 쮿 3 LED display for operation, warning and error messages in plain text 쮿 Concentration input for volume-proportional metering 쮿 Automatic bleed 쮿 Pump type 2508 with 7.5 l/h at 25 bar 쮿 Material version NP for pump types 2508, 1612,1020 and 0730 쮿 HV liquid ends for higher-viscosity media 쮿 Control module with 4 - 20 mA input for pH, ORP and chlorine, measurement probe connection via converter and universal signal cable

pk_1_131_2 delta®

1.3.2013

Swimming pool technology 2013

5-15

Individual devices and accessories Technical Data

Pump type DLTA 2508 DLTA 1608 DLTA 1612 DLTA 1020 DLTA 0730 DLTA 0450 DLTA 0280

Max. pressure bar 25 16 16 10 7 4 2

Delivery rate l/h 7.5 7.8 11.3 19.1 29.2 49.0 75.0

Stroke volume ml/stroke 0.62 0.65 0.94 1.59 2.43 4.08 6.25

Max. stroke rate Strokes/min 200 200 200 200 200 200 200

Connector size outside Ø x inside Ø 8 x 4** mm 8 x 5** mm 8 x 5 mm 12 x 9 mm 12 x 9 mm G 3/4 - DN 10 G 3/4 - DN 10

Suction lift mWC 5* 5* 6* 5* 5* 3* 2*

Shipping weight PVT / SST kg 10 / 11 10 / 11 10 / 11 10 / 11 10 / 11 10 / 11 10 / 11

* Suction height (mWC) = suction height with primed liquid end and primed suction line ** For stainless steel version 6 mm connection width All data refers to water at 20 °C

Materials in contact with the medium Type

Liquid end

NPE NPB PVT SST (8-10 mm) SST (DN 10)

Plexiglass Plexiglass PVDF Stainless steel 1.4404 Stainless steel 1.4404

Suction/pressure connector PVC PVC PVDF Stainless steel 1.4404 Stainless steel 1.4404

ball seal

Seals

EPDM FPM PVDF Ceramic Carbon-filled PTFE

EPDM FPM PTFE PTFE PTFE

Valve balls Ceramic Ceramic Ceramic Ceramic Ceramic

Type of connections Plastic

8-12 mm DN 10 6-12 mm DN 10

Stainless steel

Hose compression fitting Hose grommet d16 DN 10 System Swagelok Insert Rp 3/8

Metering diaphragm with PTFE coating Reproducibility of metering ± 2 % when used in accordance with notes in the operating instructions. Permissible ambient temperature -10° C to 45° C. Mean power consumption 78 W IP rating IP 65, insulation class F Scope of delivery: Metering pump with mains cable, connecting kit for hose/pipe connection according to table.

5-16

Swimming pool technology 2013

1.3.2013

5 5.2.7

Individual devices and accessories Identcode Ordering System delta® series

DLTA Type Capacity bar l/h bar l/h 2508 25.0 7.50 0730 7.0 29.20 1608 16.0 7.80 0450 4.0 49.00 1612 16.0 11.30 0280 2.0 75.00 1020 10.0 19.10 Liquid end/valves material PV PVDF/PVDF not for pump type 2508 NP Acrylic glass/PVC only for pump type 2508, 1608, 1612, 1020, 0730 SS Stainless steel/stainless steel Seals/diaphragm material T Only with PV and SS S PTFE/diaphragm additionally with FPM coating for silica-laden media B FPMB, only with NP E EPDM, only with NP Liquid end version 0 Without ventilation, without valve spring 1 Without ventilation, with valve spring 2 With ventilation, without valve spring 3 With ventilation, with valve spring 4 HV version for higher-viscosity media only for types 1608, 1612,1020 and 0730 Hydraulic connections 0 Standard connectors as per technical data 5 Discharge-side connector for 12/6 hose, suction-side standard F Connector on discharge side for 8/4 hose, standard on suction side Diaphragm rupture indicator 0 Without diaphragm failure indication 1 With diaphragm failure indication Version 0 With ProMinent logo Power supply U Universal controller 100-230 V Cable and plug A 2 m Europe B 2m Switzerland C 2 m Australia D 2 m USA / 115 V 1 2 m without plug Relay 0 Without relay 1 alarm relay normally energised 1 x C/O contact 230 V – 8 A 3 alarm relay normally de-energised 1 x C/O contact 230 V – 8 A 4 as 1 + pacing relay 2 x N.O. contacts 24 V – 100 mA 5 as 3 + pacing relay 2 x N.O. contacts 24 V – 100 mA A Shutdown and alarm relay normally energised 2 x N.O. contacts 24 V – 100 mA C as 1 + 4-20 mA output 1 x N.O. contact 24 V – 100 mA F with automatic bleeder, 230 V not for pump type 2508 G with automatic bleed valve, 24 V DC and relay output Accessories 0 Without accessories 1 With foot and metering valve, 2m suction line and 5 m discharge line 2 As 0 + measuring cup (only for type 2508, 1608, 1612, 1020, and 0730) 3 As 1 + measuring cup (only for type 2508, 1608, 1612, 1020, and 0730) Control variant 0 Manual + external contact with pulse control 3 Manual + external contact with pulse control + analogue 0/4-20 mA 4 as 0 + 4-week process timer 5 as 3 + 4-week process timer C as 3 + CANopen M as 3 + pH, ORP and chlorine control module R as 3 + PROFIBUS® interface, M12 Access code 0 Without access code 1 With access code Language DE German EN English FR French ES Spanish Pause/level 0 Pause N.C. contact level, N.C. contact DLTA 1612 SS T 0 0 0 0 U A 0 0 0 0 EN 0

1.3.2013

Swimming pool technology 2013

5-17

Individual devices and accessories Sigma/1 motor-driven diaphragm metering pumps are produced with a high-strength inner housing for parts subject to load as well as an additional plastic housing to protect against corrosion. The capacity range extends from 17 to 144 l/h at a max. back pressure of 12 to 4 bar. Stroke length 4 mm

Sigma/ 1 Control Type (S1Cb) 쮿 쮿 쮿 쮿 쮿

Removable operating unit with large illuminated LCD Overload switch for reliable pump protection Metering profiles for optimum metering results Energy-optimised motor control for enhanced efficiency Control versions: analogue, external contact, pulse control (batch) PROFIBUS®, CAN bus, process timer

P_SI_0129_SW

Sigma/ 1 Basic Type (S1Ba) 쮿 쮿 쮿 쮿 쮿

Large range of different drive versions Three-phase standard motor or AC motor Metering pumps for use in Exe and EXde areas with ATEX certification No motor, with various flange designs Stroke length adjustment optionally manual or electric

P_SI_0128_SW

Diaphragm rupture warning system The liquid end has a patented multi-layer safety diaphragm with visual or electrical diaphragm rupture display. The diaphragm is coated on both sides with PTFE film. This coating ensures that no leakage to the outside occurs even if the diaphragm ruptures. If the diaphragm ruptures, feed chemical enters between the diaphragm layers and thus triggers a mechanical display or an alarm via the sensor area. This concept ensures reliable metering, even under critical operating conditions. P_SI_0065_C3 1: Diaphragm rupture sensor

Under defined conditions and when installed correctly, the reproducibility of metering is better than ±2 % at a stroke length of between 30 % and 100 % (instructions in the operating instructions manual should be followed). For safety reasons, appropriate overload protection should be provided during installation for all motordriven metering pumps without integrated overload protection.

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Swimming pool technology 2013

1.3.2013

Individual devices and accessories

5.2.8

Sigma/ 1 Basic Type (S1Ba) The Sigma/ 1 basic type is a motor-driven metering pump without internal electronics. The pump offers a variety of different drive variations, whether fitted with the standard three phase motor or the single phase AC motor. We also supply metering pumps with ATEX certification for use in EXe and EXde zones. Different flange versions are available at any time and allow customers to use their own motors to drive the pumps.

Sigma Basic Type Control Functions (S1Ba) Stroke length actuator/controller Actuator for automatic stroke length adjustment, actuating period approx. 1 sec for 1 % stroke length, 1 k Ohm response signal potentiometer, enclosure rating IP 54. Controller consists of actuator with servomotor and integrated servo control for stroke length adjustment via a standard signal. Standard signal input 0/4-20 mA corresponds to stroke length 0 - 100 %. Automatic/ manual operation selection key for manual stroke adjustment. Mechanical status display of actual stroke length value output 0/4-20 mA for remote display. Variable speed motors with integrated frequency converter (identity code specification V) Power supply 1 ph 230 V, 50/60 Hz, 0.18 kW Externally controllable with 0/4-20 mA (see Fig. pk_2_103). Speed controllers with frequency converter (identity code specification Z) The speed controller assembly consists of a frequency converter and a variable speed motor of 0.09 kW pk_2_103

Technical Data Type

With 1500 rpm motor at 50 Hz Delivery rate at max. back pressure bar l/h

12017 PVT 12017 SST 12035 PVT 12035 SST 10050 PVT 10050 SST 10022 PVT 10022 SST 10044 PVT 10044 SST 07065 PVT 07065 SST 07042 PVT 07042 SST 04084 PVT 04084 SST 04120 PVT 04120 SST

1.3.2013

10 12 10 12 10 10 10 10 10 10 7 7 7 7 4 4 4 4

17 17 35 35 50 50 22 22 44 44 65 65 42 42 84 84 120 120

ml/ stroke 3.8 3.8 4.0 4.0 4.0 4.0 5.0 5.0 5.1 5.1 5.2 5.2 9.6 9.6 9.7 9.7 9.7 9.7

Max. stroke rate Strokes/ min 73 73 143 143 205 205 73 73 143 143 205 205 73 73 143 143 205 205

With 1800 rpm motor at 60 Hz Delivery rate at max. back pressure psi l/h / gph (US) 174 174 174 174 145 145 145 145 145 145 100 100 100 100 58 58 58 58

20/5.3 20/5.3 42/11.1 42/11.1 60/15.9 60/15.9 26/6.9 26/6.9 53/14.0 53/14.0 78/20.6 78/20.6 50/13.2 50/13.2 101/26.7 101/26.7 144/38.0 144/38.0

Max. stroke rate Strokes/ min 88 88 172 172 246 246 88 88 172 172 246 246 88 88 172 172 246 246

Swimming pool technology 2013

Suction lift

Perm. admiss. pressure suction side

mWC

bar

7 7 7 7 7 7 6 6 6 6 6 6 3 3 3 3 3 3

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Connection, Shipping suction/ weight discharge side G–DN 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 3/4–10 1–15 1–15 1–15 1–15 1–15 1–15

kg 9 12 9 12 9 12 9 12 9 12 9 12 10 14 10 14 10 14

5-19

Individual devices and accessories Materials in contact with the medium

Material

Liquid end

PVT SST

PVDF Stainless steel 1.4404

Suction/discharge connector PVDF Stainless steel 1.4581

Seals/ball seat

Balls

Integrated overflow valve

PTFE/PTFE PTFE/PTFE

Ceramic Stainless steel 1.4404

PVDF/FPM or EPDM Stainless steel/FPM or EPDM

Motor Data Identity code specification S

3 ph, IP 55

Power supply Δ/Y 220-240 V/380-420 V 265-280 V/440-480 V 220-240 V/380-420 V 265-280 V/440-480 V 220-240 V/380-420 V

3 ph, IP 55

Remarks 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz

0.09 kW 0.09 kW 0.09 kW 0.09 kW 0.09 kW

1 ph, IP 55

230 V ±10 %

50/60 Hz

0.18 kW

M N L1 L2 P1 P2

1 ph AC, IP 55 1 ph AC, IP 55 3 ph, II2GEExellT3 3 ph, II2GEExdllCT4 3 ph, II2GEExellT3 3 ph, II2GEExdllCT4

230 V ±5% 115 V ±5 % 220-240 V/380-420 V 220-240 V/380-420 V 250-280 V/440-480 V 250-280 V/440-480 V

50/60 Hz 60 Hz 50 Hz 50 Hz 60 Hz 60 Hz

0.12 kW 0.12 kW 0.12 kW 0.18 kW 0.12 kW 0.18 kW

with PTC, speed adjustment range 1:5 with PTC, speed adjustment range 1:20 with external fan 1ph 230 V; 50/60Hz Variable speed motor with integrated frequency converter control range 1:20

with PTC, speed adjustment range 1:5 with PTC, speed adjustment range 1:5

Motor data sheets can be requested for more information. Special motors or special motor flanges are available on request. Motors less than 0.75 kW and motors designed for speed-controllable operation are not subject to the IEC2 standard in compliance with the Ecodesign Directive 2005/32/EC. Note concerning installation in Ex-zones: With effect from 01.07.2003, only pumps with a suitable identification and rating plate in accordance with ATEX Directive 94/9/EC should be used in areas with potentially explosive atmospheres. The explosion group, category and degree of protection stated on the rating plate should correspond to, or be higher than, the conditions specified in the intended application.

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Swimming pool technology 2013

1.3.2013

Individual devices and accessories Sigma Basic Type (S1Ba)

S1Ba Drive type H Main drive, diaphragm Pump type bar l/h 12017 10 17 12035 10 35 10050 10 50 10022 10 22 10044 10 44 07065 7 65 07042 7 42 04084 4 84 04120 4 120 Material of liquid end PV PVDF (max. 10 bar) SS Stainless steel Seal material T PTFE seal Diaphragm S Multi-layer safety diaphragm with visual rupture indicator A Multi-layer safety diaphragm with rupture signalling (contact) Liquid end version 0 No spring 1 With 2 valve springs, Hastelloy C, 0.1 bar 4** With pressure relief valve, FPM seal, no valve spring 5** With pressure relief valve, FPM seal with valve springs 6** With pressure relief valve, EPDM seal, without valve spring 7** With pressure relief valve, EPDM seal, with valve spring Hydraulic connection 0 Standard 1 Union nut and PVC insert 2 Union nut and PP insert 3 Union nut and PVDF insert 4 Union nut and SS insert 7 Union nut and PVDF hose nozzle 8 Union nut and SS hose nozzle 9 Union nut and stainless steel hose nozzle Version 0 With ProMinent速 logo (standard) 1 Without ProMinent速 logo M Modified Electrical power supply S 3 ph, 230 V/400 V 50/60 Hz, 0.09 kW T 3 ph, 230 V/400 V 50/60 Hz, with PTC R 3 ph, variable speed motor, 230/400 V, 0.09 kW V (0) Variable speed motor with integrated frequency converter 1 pH, 230 V, 50/60 Hz Z Speed control compl 1 ph 230 V, 50/60 Hz (variable speed motor + FC) M 1 ph, AC, 230 V/50/60 Hz, 0.09 kW N 1 ph, AC 115 V 60 Hz, 0.09 kW L 3 ph, 230 V/400 V, 50 Hz, (Exe, Exd) P 3 ph, 265 V/440 V, 60 Hz, (Exe, Exd) 2 No motor, C 42 flange (NEMA) 3 No motor, B5 Gr. 56 (DN) Enclosure rating 0 IP 55 (standard) 1 Exe motor version ATEX-T3 2 Exd motor version ATEX-T4 Stroke sensor 0 No stroke sensor (standard) 2 Pacing relay (reed relay) 3 Stroke sensor (Namur) for hazardous locations Stroke length adjustment 0 Manual (standard) 1 With stroke positioning motor, 230 V/50/60 Hz 2 With stroke positioning motor, 115 V/60 Hz 3 With stroke control motor, 0...20 mA 230 V/50/60 Hz 4 With stroke control motor 4...20 mA 230 V/50/60 Hz 5 With stroke control motor 0...20 mA 115 V/60 Hz 6 With stroke control motor 4...20 mA 115 V/60 Hz S1Ba

** Standard with tube nozzle in the bypass. Threaded connection on request. EHEDG-certified (European Hygienic Eng. Design Group) stainless steel dosing heads are available on request.

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5 5.2.9

Individual devices and accessories Spare Parts The replacement part kit in general includes wear parts for the liquid ends. Scope of delivery for material PVT 1 x metering diaphragm, 1 x suction valve compl., 1 x discharge valve compl., 2 x valve balls 1 x elastomer seal kit (EPDM, FPM-B) 2 x ball seat bushings, 2 x ball washers, 4 x formed composite seals Scope of delivery for material SST 1 x metering diaphragm, 2 x valve balls 2 x seal kits compl. (packing rings, ball seat washers) 4 x formed composite seals

Spare parts kits Sigma/ 1 for versions with multi-layer diaphragm (for Identcode: Type 12017, 12035, 10050) Liquid end FM 50 - DN 10 FM 50 - DN 10 FM 50 - DN 10

Materials in contact with the medium PVT SST SST (with 2 valve assemblies)

Order no. 1035964 1035966 1035965

(for Identcode: Type 10022, 10044, 07065) Liquid end FM 65 - DN 10 FM 65 - DN 10 FM 65 - DN 10

Materials in contact with the medium PVT SST SST (with 2 valve assemblies)

Order no. 1035967 1035969 1035968

(for Identcode: Type 07042, 04084, 04120) Liquid end FM 120 - DN 15 FM 120 - DN 15 FM 120 - DN 15

Materials in contact with the medium PVT SST SST (with 2 valve assemblies)

Order no. 1035961 1035963 1035962

Spare parts kits Sigma/ 1 for version with old standard/double diaphragm (for Identcode: Type 12017, 12035, 10050) Liquid end FM 50 - DN 10 FM 50 - DN 10 FM 50 - DN 10

Materials in contact with the medium PVT SST SST (with 2 valve assemblies)

Order no. 1010541 1010554 1010555

(for Identcode: Type 10022, 10044, 07065) Liquid end FM 65 - DN 10 FM 65 - DN 10 FM 65 - DN 10

Materials in contact with the medium PVT SST SST (with 2 valve assemblies)

Order no. 1010542 1010556 1010557

(for Identcode: Type 07042, 04084, 04120) Liquid end FM 120 - DN 15 FM 120 - DN 15 FM 120 - DN 15 5-22

Materials in contact with the medium PVT SST SST (with 2 valve assemblies) Swimming pool technology 2013

Order no. 1010543 1010558 1010559 1.3.2013

Individual devices and accessories Multi-layer safety diaphragm (standard) Order no. 1030114 1030115 1035828

FM 50 (type 12017; 12035; 10050) FM 65 (type 10022; 10044; 07065) FM 120 (type 07042; 04084; 04120)

Metering diaphragm (old version) Order no. 1010279 1010282 1010285

Sigma/ 1 FM 50 (12017; 12035; 10050) Sigma/ 1 FM 65 (10022; 10044; 07065) Sigma/ 1 FM 120 (07042; 04084; 04120)

Spare parts kits for integrated relief valve (S1Ba, S1Ca) consisting of two Hast. C compression springs and four FPM-A and EPDM O-rings each ETS overflow valve 4 bar ETS overflow valve 7 bar ETS overflow valve 10 bar ETS overflow valve 12 bar

For material PVT/SST PVT/SST PVT/SST PVT/SST

Seals FPM-A / EPDM FPM-A / EPDM FPM-A / EPDM FPM-A / EPDM

Order no. 1031199 1031200 1031201 1031202

Spare parts kits for integrated bleed valve (S1Cb) Consisting of a compression spring made from Hastelloy C and four FPM-A and EPDM O-rings each. For identity code feature "Dosing head version" with characteristic "2", "3", "8", "9". ETS

For material PVT/SST

Seals FPM-A / EPDM

Order no. 1043785

Protective cowling Protection of the operating unit (HMI) of Sigma metering pumps against contamination; made from transparent silicone plastic. For Sigma control types S1Cb / S2Cb / S3Cb. Protective cowling for operating unit (S1Cb, S2Cb, S3Cb)

Order no. 1036724

Wall bracket Wall bracket with operating lever for wall mounting of the operating unit (HMI) without any fittings. For Sigma control types S1Cb / S2Cb / S3Cb. Wall bracket for operating unit (S1Cb, S2Cb, S3Cb)

1.3.2013

Swimming pool technology 2013

Order no. 1036683

5-23

Individual devices and accessories

5.3

Accessories for metering pumps

5.3.1

Accessories, suction side PVT Foot valve PVDF housing, PTFE seals. Connector

oØ x iØ mm 6x4 8x5 12 x 9 24 x 16

6/4 for hose 8/5 for hose 12/9 for hose DN 10 for hose

A mm 79 79 82 92

fig.

Order no.

pk_1_040 pk_1_040 pk_1_040 P_AC_0206_SW

1024705 1024706 1024707 1029471

pk_1_040

Variable suction lance without level switch 680 mm long for connection to disposable container of 5 - 60 litres, consisting of foot valve, retaining tube, vertically adjustable screw cap and 2 m intake hose.

PCB Material, retaining tube and foot valve Seal material Hose Material Material PCB PCB PCB

Hose o∅xi∅ mm 6x4 8x5 12 x 9

PVC FPM soft PVC

For 50 mm container opening For 50 mm container opening For 50 mm container opening

fig.

Order no.

pk_1_067 pk_1_067 pk_1_067

790536 790537 790538

pk_1_067

5-24

Swimming pool technology 2013

1.3.2013

Individual devices and accessories Variable suction lance with two-stage level switch 680 mm long for connection to 5 - 60 litre disposable containers, comprising a foot valve, level switch with pin plug and support pipe, height adjustable screw head and 2 m long suction hose. For metering pump product ranges Beta® and gamma. Switching mode: 2 x NC when liquid level low.

PCB Material, retaining tube and foot valve Seal material Hose Material Material PVC

Hose o∅xi∅ mm 6x4

PVC

8x5

PVC

12 x 9

PVC FPM soft PVC

PVC for Ø 50 tank opening, suction hose PVC for Ø 50 tank opening, suction hose PVC for Ø 50 tank opening, suction hose

fig.

Order no.

pk_1_075

802077

pk_1_075

802078

pk_1_075

790371

pk_1_075

Variable suction lance with two-stage level switch 680 mm long for connection to 5 - 60 litre disposable containers, comprising a foot valve, level switch and support pipe, height adjustable screw head and 2 m long suction hose. For metering pump product range: DF4a. Switching mode: 2 x NC when liquid level low.

PCB Material, retaining tube and foot valve Seal material Hose Material Material PCB

Hose o∅xi∅ mm 6x4

PCB EPDM PE

for 50 mm container opening

fig.

Order no.

P_AC_0234_SW1

790650

Screw cap For tanks with opening Ø 44, customers need to order the Ø 44 screw cap as a spare part to replace Ø 50 screw cap. pk_1_066

Order no. 811626

Ø 44 screw cap

Suction line, soft PVC Material PVC flexible

pk_1_013

1.3.2013

Length

oØ x iØ

m 5 5 5

mm 6x4 8x5 12 x 9

Permissible operating pressure bar 0.5* 0.5* 0.5*

Order no. 1004520 1004521 1004522

Admissible operating pressure at 20 °C in accordance with DIN EN ISO 7751, subject to chemical resistance and correct assembly. Swimming pool technology 2013

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5 5.3.2

Individual devices and accessories Accessories for metering end Multifunction valve type MFV-DK, PVDF Multifunction Valve for assembly directly onto the liquid end of the pump. Has the following functions: 쮿 Back pressure valve, opening pressure approx. 1.5 bar, with open discharge or positive pressure on the suction side (black rotary knob) 쮿 Relief valve, opening pressure approx. 6, 10 or 16 bar (red rotary knob) 쮿 Admission aid in existing back pressure, no need to de-pressurise pipes 쮿 Pressure relief, e.g. prior to servicing The ProMinent® Multifunction Valve is simple to operate using smooth action rotary knobs, which return to the initial position on release. This ensures safe operation even under difficult access conditions. The ProMinent® Multifunction Valve is made from PVDF and can be used with virtually all chemicals.

pk_1_053

Warning: Back pressure valves are not intended as completely sealed units! Caution: The bypass line must always be connected.

Valve body Diaphragm Seal Type Size I

PVDF PTFE- coated FPM and EPDM (enclosed) Relief opening pressure* 6 bar

Connection 6/12

Bypass connector 6/4

Order no. 1005745

Suction and discharge, PE

pk_1_013

Material

Length

oØ x iØ

Polyethylene

m 5 5

mm 6x4 8x5

Permissible operating pressure bar 10* 10*

Order no. 1004492 1004493

* Admissible operating pressure at 20 °C in accordance with DIN EN ISO 7751, subject to chemical resistance and correct assembly

Suction and discharge line, soft PVC with woven fabric core

* pk_1_060

Material

Length

oØ x iØ

Fabric-reinforced flexible PVC

m 5 5

mm 10 x 4 12 x 6

Permissible operating pressure bar 18* 17*

Order no.

1004533 1004538

permissible operating pressure at 20°C in accordance with DIN EN ISO 7751, 1/4 of the bursting pressure subject to chemical resistance and correct assembly.

For socket welded and PVC cemented rigid PP and PVDF pipe, pipes and fittings with a pressure rating of PN 16 or PN 10 bar are to be used. Caution: The resistance of soft PVC hoses is not identical with that of hard PVC. Please observe the resistance for PVC soft as well as the cleaning instructions when using the equipment for foodstuff applications (see homepage).

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Swimming pool technology 2013

1.3.2013

Individual devices and accessories PTFE Injection valves O-ring loaded PTFE housing, FPM seals. Connection

oØ x iØ mm 6x4 8x5 10 x 4 12 x 6 12 x 9

6/4 – for PE/PTFE line 8/5 – for PE/PTFE line 10/4 – for PVC hose 12/6 – for PVC hose 12/9 – for PE/PTFE line

A mm 104 104 104 104 104

fig.

Order no.

P_AC_0183_SW P_AC_0183_SW P_AC_0183_SW P_AC_0183_SW P_AC_0183_SW

809484 809485 1002925 809487 809486

P_AC_0183_SW

Lip seal dosing valve PCB Body PVC, seals FPM, inlet pressure approx. 0.05 bar. For dosing sodium hypochlorite and in conjunction with the peristaltic pump DF2a. Connection 6/4 - R 1/2 - 1/4 for PE/PTFE pipe 10/4 - R 1/2 - 1/4 for PE/PTFE pipe

oØ x iØ mm 6x4 10 x 4

A mm 90 90

fig.

Order no.

pk_1_070 pk_1_070

1019953 1024697

pk_1_070

PPE injection lance For immersion depths of 20 - 165 mm, in large diameter pipe to prevent chemical deposition at the point of injection. Consisting of spring-loaded metering valve, Hastelloy C spring, ceramic ball, adjustable immersion rod and hose valve. With connectors for all hose sizes used with solenoid metering pumps: 6/4, 8/5, 12/9, 10/4 adn 12/6.

pk_1_007

pk_1_062

1.3.2013

Type

Seal material

fig.

Order no.

EPDM/silicone

Max. pressure at 25 °C bar 6

PPE without shut-off cock valve PPE with shut-off cock valve PCB without shut-off cock valve PCB with shut-off cock valve

pk_1_007

1021530

EPDM/silicone

pk_1_062

1021531

FPM/silicone*

pk_1_007

1021528

FPM/silicone*

pk_1_062

1021529

* Caution: The product contains adhesive joints with Tangit. Please note the resistance of Tangit adhesive.

Swimming pool technology 2013

5-27

5 5.3.3

Individual devices and accessories General accessories Flow Control adjustable flow monitor Suitable for gamma/ L series in material versions PP, PC, NP and TT. Supplied with connection cable for assembly directly to liquid end. Monitors individual strokes according to the float and orifice principle. The partial quantity of chemical flowing past the float is adapted to the preset stoke volume via the adjusting screw so that an alarm is actuated if the flow falls below 20 %. The user can select the number of incomplete strokes permitted (between 1 and 127) in accordance with the actual process requirements. Materials Housing: Float: Seals: Flow Control Size I Size II

pk_1_086_2

PVDF PTFE-coated FPM/EPDM For pump type 1601, 1602 1601, 1602 1005, 1605, 0708, 1008, 0413, 0713, 0220, 0420, 0232 1005, 1605, 0708, 1008, 0413, 0713, 0220, 0420, 0232

Material PVDF/EPDM PVDF/FPM PVDF/EPDM

Order no. 1009229 1009335 1009336

PVDF/FPM

1009338

External control cable For external control of Beta速, gamma, mikro g/ 5 and Vario via contacts only. With 5 pin round plug, internally bridged, and 2-core lead with open end. pk_1_085

2 core external cable, 5 pin round plug 2 core external cable, 5 pin round plug 2 core external cable, 5 pin round plug

Lead length 2m 5m 10 m

Order no. 707702 707703 707707

Universal control cable For control of metering pump via contact - external pacing, standard signal - analogue control and for voltage free ON/OFF - switch function. pk_1_085

For Beta速, gamma, mikro g/ 5 and Vario with 5-pin plastic round plug and 5-core open ended cable. 5 core universal cable, 5 pin round plug 5 core universal cable, 5 pin round plug 5 core universal cable, 5 pin round plug

5-28

Swimming pool technology 2013

Lead length 2m 5m 10 m

Order no. 1001300 1001301 1001302

1.3.2013

Individual devices and accessories Storage tank 60 litre cylindrical tank, made of coloured PE with scale and opening for manual mixer with screw cover and threaded sleeves for mounting the Prominent® metering pumps. Dimensions Diameter: 410 mm Height: 490 mm Type PE black PE blue PE yellow PE red

Order no. 791999 1003813 1003819 1003825

pk_3_001_1

PP Hand mixer completely assembled. A mm 515

for tanks 35 and 60 l

Ø mm 90

Order no. 741118

pk_3_009

PPE Wall Mounting Bracket With fixtures, to hold one metering pump, size Beta®/ 4, Beta®/ 5, gamma/ L, G/ 4, G/ 5, EXtronic® and alpha. The Beta®/ 4, gamma/ L, and G/ 4 can be mounted either parallel to the wall or at an angle.

pk_1_092

Dimensions L x W x H: 208 x 120 x 140 mm Material

Glass fibre reinforced plastic PPE

Sizes BT4, BT5, gamma/ L, G/ 4, G/ 5, D_4a

fig. pk_1_092

Order no. 810164

PE colourless/transparent stackable collecting pans Usable capacity l 35

Material PE

mm 565

mm 507

mm 220

Order no. 1010879

pk_3_019

1.3.2013

Swimming pool technology 2013

5-29

Individual devices and accessories PP Pressure accumulator Caution:

An overflow valve must always be installed when using pressure accumulators.

Operating range 20 째C - max. operating pressure 10 bar 40 째C - max. operating pressure 6 bar Volume Size 0* *

l 0.15

Permissible stroke volume ml 1.0

Connection fig. M 20 x 1,5

Order no.

pk_1_006 1021157

With vent valve. Installed directly at pressure connection.

Blue protective tray for the metering station pk_1_006

to accommodate metering pumps (hose, diaphragm metering pumps) when it is necessary to separate the metering technology from the I&C technology. Can be installed freely in plant rooms, including protective tray with rear wall bracket. Blue protective tray

5-30

Swimming pool technology 2013

Order no. DSS 2002

1.3.2013

Individual devices and accessories

5.4

Measuring and control equipment

5.4.1

Multi-channel multi-parameter measuring and control system for water treatment DULCOMARIN® II The multi-channel measuring and control system DULCOMARIN® II stands out thanks to the following features:

pk_5_045

5,7", 1/4 VGA colour display for ultra-simple operation Integral data logger with screen plotter: view measured data directly on the controller SD card and card reader for PC included: simply transfer measured data to your PC as standard Control of one to 16 drinking water systems or filtration circuits in swimming pools CAN bus system: Simple to wire, subsequently extendable Visualisation*: simple with embedded web server* and standard web browser LAN interface*: simple connection to your PC, PC network or the internet Intelligent sensors: save sensor data with CANopen bus and ensure you always remain within the optimum measuring range with auto ranging 쮿 Intelligent metering pumps: use CANopen bus to obtain information on operating parameters, such as: chemical level statuses and pump capacity in the dosing range of 0.74 l/h to 1,030 l/h 쮿 Standby metering pump for disinfectants (automatic switchover in the event of liquid level low and pump malfunction)

쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Drinking water applications (and general applications) 쮿 Measure and display the following measurement parameters using 0/4...20 mA with a current input module (I-module). These values are also available on the data logger/screen plotter, the web and OPC server: 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Flow (as feed forward control for pH and chlorine regulation) UV intensity Conductivity Chlorine dioxide Chlorite Ammonia Fluoride (using D1Ca) Pt100 resistance thermometer via a transducer

쮿 Display and control of free chlorine and total available chlorine 쮿 OPC server*: Simple connection to higher-level visualisation systems *optional Swimming pool applications 쮿 쮿 쮿 쮿 쮿

Combined chlorine: reliably reduced by the control output and corresponding systems OPC server*: simple connection to higher-level visualisation systems Regulate the pool temperature using standard temperature controllers Superchlorination or night setback by contact or time-controlled by a second parameter set The decentralised modular DULCOMARIN® II system is designed for use in DIN 19643-compliant public swimming pools. The system can be configured according to requirements as the compact system DULCOMARIN® II compact or as the decentralised modular system DULCOMARIN® II DULCO®-Net .

The applications are defined in the identity code Every drinking water system or every filtration circuit has a proprietary on-site calibration option for all measured variables. The examples shown in the following are suitable for applications in drinking water treatment and in swimming pool technology. What is Eco!Mode operating mode? There is a menu in the DULCOMARIN® II for each of the measured variables controlled, in which the control parameters (setpoint, proportional coefficient etc.) are defined. Eco!Mode permits alternative control parameters to be enabled for every measured variable controlled via a digital input on the M module. The alternative control parameters can be used, for instance, in setback mode to optimise the control parameters to this operating mode or activate higher setpoints for chlorine in the event of superchlorination. Eco!Mode remains active for as long as the digital input is set, however, it can also be activated via a timer. This can be checked via the recorder function!

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Individual devices and accessories What is a web server? A web server is a software application executed by the DULCOMARIN® II. The web server delivers web pages with information about measurements, control, sensor calibration and control configuration to a PC with a web browser (e.g. Microsoft® Internet Explorer). The web server enables simple and straightforward visualisation of the DULCOMARIN® II, without special visualisation software being required on the PC. The web server is independent of the PC's operating system. It can be linked by Wi-Fi to an iPad, Smart phone or laptop via an access point. The DULCOMARIN® II is connected to a PC via a LAN/Ethernet interface and this connection can be made directly, via a network or via the internet. The cables needed for direct connection to a PC or network connection are included in the option. Standard commercially available network components can be used as accessories for cables, routers and WLAN access points etc. The same information can be accessed via the web server as is available on the DULCOMARIN® II itself, for instance changing setpoints for all control variables, switching off the different controllers and entering names for the pools/systems. The exceptions are the control settings and bus configuration that can only be entered directly on the controller. What is OPC? OPC stands for Openness, Productivity, Collaboration (formerly OLE for Process Control) and is used to describe a uniform software interface independent of specific manufacturers. OPC Data Access (OPC DA) is based on Windows technology COM (Component Object Model) and DCOM (Distributed Component Object Model). OPC XML, in contrast, is based on the internet standards XML, SOAP and HTTP. OPC is used wherever sensors, controllers and controls supplied by different manufacturers are used to create a common, flexible network. Without OPC, two devices would require precise knowledge about the communication options of the other device to be able to exchange data and extensions and exchanges would be correspondingly difficult. With OPC it is sufficient to write an OPC-compliant driver precisely once for each device and ideally this is provided by the manufacturer. An OPC driver can be integrated without extensive adaptation into any large control and monitoring systems. ProMinent supplies an OPC server/driver such as this for the multi-channel measuring and control system DULCOMARIN® II.

5.4.2

DULCOMARIN® II compact Multi-channel multi-parameter Measuring and Control System The DULCOMARIN® II multi-channel measuring and control system is suitable for 1 to 16 filtration circuits or potable water systems. The following bus modules are available for the control: M module (measurement and control): 쮿 쮿 쮿 쮿 쮿 쮿

Measurement and control of the pH value Measurement and display (optional control) of the ORP Measurement and display of the temperature of the sample water Sample water monitoring Measurement of free chlorine Measurement of combined chlorine (optional, calculated from total chlorine and free chlorine)

Chlorine sensors: 쮿 Measurement of free chlorine and temperature 쮿 Measurement of total available chlorine and temperature 쮿 Measurement of combined chlorine as differential chlorine measurement A module (control of metering pumps, analogue outputs): 쮿 3 frequency outputs to control metering pumps for pH correction, disinfection and flocculant metering 쮿 3 contact inputs to process pump alarm relays or tank fill level monitoring 쮿 4 freely programmable analogue outputs 0/4…20 mA for pH, ORP, free chlorine, combined chlorine or temperature P module (controlling of peristaltic pumps, power supply of bus modules): 쮿 쮿 쮿 쮿 쮿

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Power relay pulse length control for pH value (e.g. control of the peristaltic pump) Power relay pulse length control of disinfectant (e.g. control of the chlorine electrolysis plant) Power relay limit value output to minimise combined chlorine Alarm relay Power supply of bus modules

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Individual devices and accessories N module (power supply of bus modules): 쮿 Power supply of bus modules with no further function R module (control of the chlorine gas metering units): 쮿 Control of a chlorine gas metering unit and processing of a position feedback potentiometer (0…10 kΩ) (only possible as external module) Metering pumps with CANopen interface of type Beta®, delta®, Sigma/ 1, Sigma/ 2, and Sigma/ 3 쮿 Direct connection to the bus 쮿 When using Beta/4aCANopen metering pumps, the A module is not required (provided no current outputs are required). I module (current input module) 쮿 2 current inputs active/passive (e.g. to connect 2-wire measuring transducers) 쮿 1 current input passive (e.g. to connect a magnetically-inductive flow meter) 쮿 2 digital inputs for sample water alarm and pause control G module (limit value module) Individual parameters can be defined and different limit values activated here.

pk_5_045

Installation of this module is necessary to comply with Austrian standards. F module (functional module) 쮿 Display of hydraulic functions 쮿 Control of attractions 쮿 Monitoring of the water circuits

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5 5.4.3

Individual devices and accessories Technical Data for the DULCOMARIN®II compact and DULCO®-Net Multi-Channel Measuring and Control System Measuring range

pH -1...15 ORP: -1,200 ... +1,200 mV Chlorine, free 0.01...10 ppm/100 ppm Chlorine, total 0.01...10 ppm Chlorine, combined 0.01... 2.00 ppm Bromine: 0.01...10 ppm Chlorine dioxide: 0.01...10 ppm Chlorite anion: 0.10...2 ppm Temperature -20 … 150 °C Pt 100 or Pt 1000 Resolution 0.01 pH / 1 mV / 0.01 ppm / 0.1 °C Accuracy 0.5% of the final value of the measuring range (at 25 °C) Measurement input ph and ORP via terminal mV Chlorine via CANopen bus Control characteristic P/PI/PID control, intelligent control Control Acid and/or alkali and chlorine (2 control circuits), temperature Digital inputs 5 potential-free inputs (sample water, pause, 3 pump failures, 2nd parameter set) Signal current output 4 x 0/4-20 mA max. load 600 Ω range adjustable. An isolating amplifier, e.g. order no. 1033536, is required for connection to units which are not electrically isolated! Control outputs 3 reed contacts for acid, alkali or flocculants and chlorine (pulse frequency to control metering pumps) 3 relays (pulse length) contact type changeover to control solenoid valves or peristaltic pumps Alarm relay 250 V ~3 A, 700 VA contact type, changeover Interfaces LAN, SD-expansion slot Electrical connection 85...265 V~, 50/60 Hz Permissible ambient temperature -5…45 °C Storage temp. -10…70 °C Enclosure rating IP 65 Climate Permissible relative humidity: 95% non-condensing DIN IEC 60068-2-30 Dimensions H x W x D 227 x 342 x 78 mm Compliance of all devices with CANopen specifications: On the hardware side, all devices comply with the harmonised CAN specification 2.0 (ISO99-1, ISO99-2). This includes the CAN protocol (ISO 11898-1) and details on the physical layer in compliance with ISO 11898-2 (high speed CAN up to 1 Mbit/sec) and ISO 11898-3 (low speed CAN up to 125 kBit/sec). The unit complies with the CAN-Open specification CIA-DS401 that forms the basis of the European standard EN50325-4 and also complies with the controller device profile CiA-404.

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5 5.4.4

Individual devices and accessories Identcode Ordering System DULCOMARIN®II compact DULCOMARIN®II DXC range

DXCa Installation W Wall mounting (IP 65) S Control cabinet (IP 54) Version 0 With controls D with operating elements for use in potable water/disinfection applications Communication interfaces 0 None 5 Embedded web server, LAN including 5 m LAN patch cable 1:1, LAN coupling, 5 m crossover cable 1) 6 OPC server + embedded web server, LAN including 5 m LAN patch cable 1:1, LAN coupling, 5 m crossover cable 1) Options 1 Videographic recorder with data logger including SD card and USB card reader for PC Module 1 M M module, measuring module for pH, ORP, temperature A A module, control module: 3 pump and 4 analogue outputs I I module, current input module, 3 mA, 2 digital inputs Module 2 0 Not used A A module, control module: 3 pump and 4 analogue outputs M M module, measuring module pH, ORP, temperature I I module, current input module, 3 mA, 2 digital inputs F F module, module for filter and attraction control Module 3 P P module, mains power module, 1 alarm relay, 3 solenoid valve relays N N module, mains power module without relay 1 F module occupies module position 3 Application S Swimming pool D Potable water/disinfection Language default 00 no operation DE German EN English ES Spanish FR French IT Italian PL Polish NL Dutch CZ Czech Approvals 01 CE mark DXCa W 0 0 1 M A P S EN 01

The Identcode describes the DULCOMARIN®II compact controller. 1

The cable supplied is intended for connection to a hub, switch, router or Intranet. For a direct connection of the DULCOMARIN®II to a PC/MAC, the LAN coupling and the cross-over cable cat. 5 supplied are required. The maximum LAN cable length is approx. 100 m. To operate the Web server on a PC we recommend using Microsoft®Internet Explorer 5 or higher as your browser. The following components are supplied in the DXCa package: 1 T-distributor, 1 CAN connecting cable, 1 termination resistor coupling and 1 termination resistor plug, 1 SC card, 1 card reader for PC.

Important note when ordering multi-channel measuring and control systems for potable water and pool water applications: Potable water applications: In the identcode, a "D" for "Potable water/disinfection" must be selected under "Version" and "Application". The description "System" will appear in the controller menu for the different potable water lines. Swimming pool water applications: In the identcode, a "0" for "with operating elements" must be selected under "Version" and then an "S" for "Swimming pool" under "Application". The description "Tank" will appear in the controller menu for the different filter circuits. All adjustment options and the use of the different modules are identical with both applications.

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Individual devices and accessories Configuration example: 1-pool system This example of a measuring and control system for pH, ORP, free chlorine and temperature shown for a filter circuit consists of the following components (without chemical fluid handling):

A Plant room

pk_5_020

Item 1 2 3 4 5 6 7 8 9 10 11 12

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Quantity Name 1 DULCOMARIN® II central unit with measuring and actuation modules DXCa W 0 0 1 M A P S EN 01 1 DULCOTEST® in-line probe housing DGMa 3 2 1 T 0 0 0 1 Chlorine sensor CLE 3-CAN-10 ppm 3 T-distributor M12 5 pol. CAN 1 Temination resistance M12 connector 1 Temination resistance M12 plug 3 Connection cable - CAN M12 5 way 0.5 m 1 pH sensor PHES 112 SE 1 ORP sensor RHES-Pt-SE 1 Cable combination coax 2 m- SN6 - pre-assembled* 2m Signal lead, sold by the metre 2 x 0.25 mm2 Ø 4 mm – CAN Connection cable

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Order no. – – 1023425 included in delivery included in delivery included in delivery included in delivery 150702 150703 1024106 725122 1022160

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5 5.4.5

Individual devices and accessories DULCOMARIN® II DULCO®-Net Multi-channel multi-parameter Measuring and Control System DULCOMARIN® II DULCO®-Net The DULCOMARIN® II DULCO® Net multi-channel measuring and control system can, in its top-of-therange optional version, control 16 potable water systems/filtration circuits, i.e. the necessary external modules for 16 tanks can be connected to and operated by the central unit. The following options are available: Measurement and control of: Up to 16 times: 쮿 쮿 쮿 쮿 쮿

pH value ORP potential Free chlorine Combined chlorine (calculated) Temperature of the sample water

Also in potable water applications (using the I module): 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Flow (as disturbance variable control for pH and chlorine regulation) UV intensity Conductivity Chlorine dioxide Chlorite Ammonia Fluoride Pt100/Pt1000 resistance thermometer via a transducer

Other inputs and outputs: Up to 16 times: 쮿 3 frequency outputs for control of metering pumps for pH-correction of disinfectant and flocculant metering 쮿 3 contact inputs for processing of pump fault signal relays or container level monitoring 쮿 4 freely programmable analogue outputs 0/4 … 20 mA (for pH, ORP, free chlorine, combined chlorine or temperature) 쮿 3 output relays pulse length control of the pH value, the disinfectant and minimisation of the combined chlorine (e.g. control of a peristaltic pump and chlorine electrolysis system and UV system) 쮿 Control of a chlorine gas metering device 쮿 3 Beta®/4 CANopen metering pumps 쮿 Up to 2 F modules per filter circuit are possible The CAN bus with CANopen protocol is used as a data transfer medium between the various bus modules. This extremely interference-proof technology was developed by Bosch and is well known from its use in automotive applications. The maximum length of the bus backbone is 400 metres. A T-coupler is used for connection of each bus module (M module, A module, P module, N module, Beta®/ 4 CANopen metering pumps and CAN chlorine sensors) to the bus backbone using a branching cable). T-coupler and branching cable are part of the scope of supply of the modules. All bus modules are supplied via the CAN bus with 24 V operating voltage (with the exception of Beta®/4 CANopen metering pumps, P modules, N modules. These require a separate mains voltage supply). For this reason, depending on the size of the installation (number of filtration circuits to be controlled), additional P or N modules are required that feed the operating voltage for the bus modules into the bus. The central unit always contains a power supply (N or P module). How many additional N or P modules do you require? Number of filtration circuits 1 2 3 4 5 6 7 8

Additional N or P modules – – 1 2 2 3 3 4

Number of filtration circuits 9 10 11 12 13 14 15 16

Additional N or P modules 4 5 5 6 6 7 7 8

The DULCOMARIN® II Compact and DULCO® Net can be easily extended by the connection of bus modules. 1.3.2013

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Individual devices and accessories Which components can a DULCOMARIN® II DULCO® Net system consist of? A DULCOMARIN® II DULCO® Net system comprises: 쮿 DXCa central unit with operating elements and a customised combination of the following components: 쮿 M module, DXMaM (measuring and control) 쮿 A module, DXMaA (control of metering pumps, analogue outputs) 쮿 P module (module in the DXCa housing for power supply to the modules and alarm relays, output relays for control of, for example, peristaltic pumps) 쮿 N module, DXMaN (power supply to external modules with no other function) 쮿 R module, DXMaR (control of chlorine gas metering devices with position feedback processing) 쮿 I module (processing of sensor signals via 0/4...20 mA) 쮿 F module (filter and attraction control) The maximum bus backbone length is approximately 400 m!

5.4.6

The Central Unit

A Stub cable B Main BUS cable C Stub cable

pk_5_041_2

The central unit can be installed anywhere, for example in the control room. It serves as an I/O unit (view measuring data, parameterise and configure individual modules). It includes the following functions: standard screen recorder/data logger function, interfaces*, embedded Web server* and power supply. As an option, the central unit can also include an M and an A module if the central unit is also located in the control room. The central unit is connected to other units via the main bus train. For this connection, the T-distributor and the CAN connecting cable 0.5 m included in the scope of delivery are used. The main bus train must be fitted with termination resistors at either end. These components are included in the scope of delivery. The central unit in the above example consists of the following components: Item 1

Quantity 1

8 11 14 10 12

1 1 1 1 1

Name DULCOMARIN® II central unit DXCa W 0 0 1 0 0 P S EN 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m CAN Connection cable Temination resistance M12 connector Temination resistance M12 plug

Order no. – included in delivery included in delivery as required included in delivery included in delivery

* optional

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5.4.7

M Module – Measuring Module

A Stub cable B Main BUS cable

pk_5_042

The M module with its illuminated graphic display and keypad displays the measured values and allows all sensors for the corresponding filter circuit to be calibrated on site. The following measurements can be taken: 쮿 pH value 쮿 ORP potential 쮿 free chlorine and 쮿 total available chlorine (optional or combined chlorine is calculated) and 쮿 sample water temperature using the temperature probe in the chlorine sensor or optionally using a separate Pt100/Pt1000 resistance thermometer The M module has 3 digital inputs for: 쮿 sample water monitoring 쮿 controlling breaks in filter backwashing 쮿 Parameter changeover for Eco!Mode

The M module is connected to the other bus modules via the main bus cable, using the T-distributor supplied and the 0.5 m CAN connection cable. The M module in the above example consists of the following components: Name M module DXMa M W 0 S EN 01 In-line probe housing DGMa 3 2 2 T 0 0 0 Chlorine sensor CTE 1-CAN-10 ppm Chlorine sensor CLE 3.1-CAN-10 ppm T-distributor M12 5 pole CAN Connection cable - CAN M12 5-pole 0.5 m Connection cable - CAN M12 5-pole 0.5 m pH sensor PHES 112 SE ORP sensor RHES-Pt-SE Cable combination coax 2 m- SN6 - pre-assembled* Signal lead, sold by the metre 2 x 0.25 mm2 Ø 4 mm Alternative = without bound chlorine measurement

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Item 2 5 6 7 8 10 11 18 19 20 21

Quantity 1 1 1 1 3 1 2 1 1 1 2m

Item 5a

Quantity 1

Order no. DXMa M W 0 S DE 01 DGMa 3 2 2 T 0 0 0 1023427 1023426 included in delivery included in delivery included in delivery 150702 150703 1024106 725122

Name Order no. DULCOTEST® in-line probe housing DGMa 3 2 1 T 0 0 0 – Swimming pool technology 2013

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5.4.8

A Module – Control Module

A Stub cable B Main BUS cable

pk_5_043

The A module permits the control of up to three metering pumps via pulse frequency. Possible metering combinations are: 쮿 pH lowering and disinfectant and flocculant or 쮿 pH raising and disinfectant and flocculant or 쮿 pH lowering and pH raising and disinfectant It includes 3 digital inputs to evaluate the alarm relay of metering pumps, 4 freely programmable standard signal outputs 0/4…20 mA to document measured values, or as control outputs. The T-distributor and 0.5 m CAN connecting cable included in the scope of delivery are used for this connection. Note: No A modules are required if Beta®/4CANopen metering pumps are used! The A module in the above example consists of the following components (without metering technology): Item 3 8 11

Quantity 1 1 1

Name A module DXMa W 2 0 00 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m

Order no. – included in delivery included in delivery

The A module is connected to other units via the main bus train. An isolating amplifier, e.g. order no. 1033536 is required for connection to units which are not electrically isolated (e.g. PLC)!

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5.4.9

N Module â&#x20AC;&#x201C; Power Supply Module

A Stub cable B Main BUS cable

pk_5_043_C_power

The N module (power supply) is used to supply the bus modules with power and has no further function. The number of N modules required can be seen from the table below. If P modules are used in a system, the number of N modules is reduced accordingly. The central unit always includes a power supply unit (N or P module) How many additional N or P modules do you require? Number of filtration circuits 1 2 3 4 5 6 7 8

Additional N or P modules 1 2 2 3 3 4

Number of filtration circuits 9 10 11 12 13 14 15 16

Additional N or P modules 4 5 5 6 6 7 7 8

The N module requires a power supply for operation and is connected to the other bus modules via the main bus train. The T-distributor and 0.5 m CAN connecting cable included in the scope of delivery are used for this connection. The N module in the above example consists of the following components: Item 3 8 11

Quantity 1 1 1

Name N module DXMa N W 2 0 00 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m

Order no. â&#x20AC;&#x201C; included in delivery included in delivery

Our Sales department would be glad to assist with any questions you may have.

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5 5.4.10

Individual devices and accessories Combination module DF2a CAN SET

Kombinationsmodul

Combination of DF2a and P module The combination module (DXCa without control elements) can accommodate up to two DF2 hose dosing heads that are activated via the integral P module. Metering is performed by pulse length control. Communication with the DXCa central unit is via the CAN connecting cable. The combination module is supplied with 230 V voltage. The function of the combination module results from the function of the individual modules (see above description). The modules in the combination module are operated via the central unit DXCa. The combination module in the above example consists of the following components (without the metering technology) (please state type DF2 with your order): Item 3 8 11

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Quantity 1 1 1

Name Control module DXCa W 2 0 0 0 A P S 00 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m

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Order no. â&#x20AC;&#x201C; included in delivery included in delivery

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Individual devices and accessories

5.4.11

G-Module â&#x20AC;&#x201C; Limit Value and Alarm Module

A Stub cable B Bus main cable

P_DM_0024_SW3

The G-module is a limit value and alarm emitting module with 2 potential-free changeover relays to signal alarm states. Each of the two relays has ten different setting options to monitor measured values for minimum and maximum values and, should the values exceed or fall below these limits, this then triggers the relay. Both relays have the same setting options, thereby enabling signals for pre-warnings or shutdowns to be generated by the use of different delay periods. The G module is connected to the other units via the main bus cable using the T-distributor and 0.5 m CAN connection cable supplied. The G module in the above example consists of the following components: Item 3 8 11

Quantity 1 1 1

Name G module DXMa G W 2 0 00 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m

Order no. â&#x20AC;&#x201C; included in delivery included in delivery

Our Sales department would be glad to assist with any questions you may have.

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5.4.12

R Module – Control Module For Chlorine Gas Metering Units

A Stub cable B Main BUS cable

pk_5_043_C

The R module permits the control of chlorine gas metering units equipped with a position feedback potentiometer. It includes 2 power relays for opening and closing and an input for a position feedback potentiometer 1 ... 10 kΩ The R module is connected to other units via the main bus train. The T-distributor and 0.5 m CAN connecting cable included in the scope of delivery are used for this connection. The R module in the above example consists of the following components (without the chlorine gas metering device): Item 3 8 11

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Quantity 1 1 1

Name R module DXMa R W 2 0 00 01 T-distributor M12 5 pol. CAN Connection cable - CAN M12 5 way 0.5 m

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Order no. – included in delivery included in delivery

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Individual devices and accessories

5.4.13

I Module – Current Input Module

A Stub cable B Main BUS cable

AP_DC_0011_SW

The I module with its illuminated graphic display and keypad is a current input module capable of processing 3 standard signals from sensors and two digital signals. It can be used together with the multi-channel controller DULCOMARIN® II in potable water and swimming pool applications. All measured variables are available in the screen writer and web and OPC® server. Two analogue inputs are provided as 2-wire inputs and one as passive input. All channels have preselected measured variables. However the identifier and units can be edited. Channel 1 acts as the disturbance variable channel for channel 2. Channel 3 is the temperature compensation channel for channel 2 when the measured variable is fluoride. The inputs can process the following values as 0/4... 20 mA standard signals: 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Turbidity Flow (can also be used as the disturbance variable) UV intensity Conductivity (via DMTa measuring transducer) Chlorine dioxide* Chlorite Ammonia Fluoride Pt100 resistance thermometer via a transducer Dissolved oxygen Hydrogen peroxide * Editable identifier and units

The I module has 2 digital inputs for: 쮿 sample water monitoring and 쮿 Pause control The flow information can be used as a disturbance variable for the control of chlorine, pH correction and chlorine dioxide. * these measured variables can also be controlled The I module is connected to other bus modules via the main bus cable. The T-distributor and 0.5 m CAN connection cable supplied are used for this. The I module in the above example consists of the following components: Item 2 8 10

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Quantity 1 1 1

Name I module DXMa I W 0 D EN 01 T-distributor M12 5P CAN Connecting cable - CAN, M12, 5P, 0.5 m

Swimming pool technology 2013

Order no. – included in delivery Included in delivery

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5 5.4.14

Individual devices and accessories F Module – Functional Module

P_DC_0009_SW

The F module combines functions that were until now available in the A and P module combination and also extends these functions. It includes the supply voltage (90-253 VAC) for the controller. The F module is selected for the 2nd module position and also occupies the 3rd module position. The following functions can be provided by the F module (you can find details for this in the individual application examples of the assembly and operating instructions): Hydraulic functions: Control of circulation operation (depending on the weekday and the time of day) Automatic backwashing Route first filtrate through the internal circuit (electrical backflow shut-off valve) Lowering of the water level during standby operation Circulation flow control Water level control Sample water valve Heating function 쮿 Heating control heat exchanger 쮿 Solar heating 쮿 Gutter cleaning function 쮿 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Attractions: 쮿 쮿 쮿 쮿 쮿

Open/Close cover Counterflow system/JetStream Flood/Neck shower Massage nozzle Underwater light

Monitoring: 쮿 Flow control 쮿 Actual circulation flow recording 쮿 Fresh water top-up measurement 쮿 Cover 쮿 Massage pump active 쮿 1, 2 or 4-stage level functions 쮿 Control variables for: 쮿 Disinfection 쮿 pH (+/-) 쮿 Flocculation 쮿 UV system 쮿 Backwashing emergency-off, if water alarm issued

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5.4.15

DULCOMARIN® II DULCO®-Net Identity Code Ordering System for Multi-channel multi-parameter Measuring and Control System (Central Unit and Combination Module) DULCOMARIN®II DXC range

DXCa Installation W Wall mounting (IP 65) S Control cabinet (IP 54) Version 0 With controls 2 With operating elements for use in potable water/disinfection applications D With controls Communication interfaces 0 None 5 Embedded web server, LAN including 5 m LAN patch cable 1:1, LAN coupling, 5 m crossover cable 6 OPC server + embedded web server, LAN including 5 m LAN patch cable 1:1, LAN coupling, 5 m crossover cable Options 1 Videographic recorder with data logger including SD card and USB card reader for PC Module 1 0 Not used M M module, measuring module: pH, ORP, temperature A A module, control module: 3 pump and 4 analogue outputs I I module, current input module, 3 mA inputs, 2 digital inputs Module 2 0 Not used A A module, control module: 3 pump and 4 analogue outputs M M module, measuring module: pH, ORP, temperature I I module, current input module, 3 mA inputs, 2 digital inputs F F module, module for filter and attraction control Module 3 P P module, mains power module, 1 alarm relay, 3 solenoid valve relays N N module, mains power module unit without relay 1 F module occupies module position 3 Application S Swimming pool D Potable water/disinfection Language default DE German EN English ES Spanish FR French IT Italian PL Polish NL Dutch CZ Czech Approvals 01 CE mark DXCa W 0 0 1 M A P S EN 01

Please note the following: Upgrade modules for existing systems require a software update for the existing system. A Software Update Kit is needed to avoid any possible incompatibility between the different modules. The update kit is free of charge and one is also needed when ordering more than one upgrade module. The kit includes an SD memory card with the current software for the DULCOMARIN® II and a description about how to perform the software update. Update kit/DXC and modules

Order no. 1031284

The Identcode describes the complete DULCOMARIN®II DULCO®-Net central unit. The peripheral components mentioned in the above item list, however, are not included. If modules are assigned to the central unit, the following applies: Module 1 preferably assigned as M module Module 2 preferably assigned as A module Module 3 must always be assigned as P module or N module. Important note when ordering multi-channel measuring and control systems for potable water and pool water applications: Potable water applications: In the identcode, a "D" for "Potable water/disinfection" must be selected under "Version" and "Application". The description "System" will appear in the controller menu for the different potable water lines. Swimming pool water applications: In the identcode, a "0" for "with operating elements" must be selected under "Version" and then an "S" for "Swimming pool" under "Application". The description "Tank" will appear in the controller menu for the different filter circuits. All adjustment options and the use of the different modules are identical with both applications. 1.3.2013

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5 5.4.16

Individual devices and accessories Identcode Ordering System for CANopen Modules Modules for the DULCOMARIN® II, DXM product range

DXMa Module M M module, measuring module: pH, ORP, temperature A A module, control module: 3 pump and 4 analogue outputs R R module, control module: chlorine gas metering unit with feedback 1), 2) N N module, mains power module without relay 1), 2) P P module, mains power module with relay, only mounting type "0" 1), 2) I I module, current input module, 3 mA inputs, 2 digital inputs Installation 0 No housing, only P module (IP 00) W Wall mounting (IP 65) E Retrofit module (installation module for DXCa, IP 20) Version 0 With controls (only M module, mounting type W)1 2 Without controls 3 Without contols (only mounting type “E” and “H”) Application 0 Standard S Swimming pool (only M-module) D Potable water/disinfection (only I module) Language default 00 No controls 2) DE German EN English ES Spanish FR French Approvals 00 No approval, only P-module without housing 01 CE mark DXMa M W 0 S EN 01

5-48

Swimming pool technology 2013

Order no. 1031284

1.3.2013

Individual devices and accessories

5.4.17

Accessories for the DULCOMARIN® II compact and DULCOMARIN® II DULCO®-Net Measuring and Control Systems CLE 3-CAN-10 ppm CLE 3.1-CAN-10 ppm CTE 1-CAN-10 ppm CGE 2-CAN-10 ppm BRE 3-CAN-10 ppm T-distributor M12 5 pole CAN Termination resistor M12 coupling Termination resistor M12 plug Connecting cable - CAN M12 5 pole 0.3 m Connecting cable - CAN M12 5-pole 0.5 m Connecting cable - CAN M12 5-pole 1 m Connecting cable - CAN M12 5-pole 2 m Connecting cable - CAN M12 5-pole 5 m Connecting cable - CAN (by the metre) CAN (by the metre) – connection kit PHES 112 SE RHES-Pt-SE Cable combination coax 0.8 m - pre-assembled* Cable combination coax 2 m- SN6 - pre-assembled* Cable combination coax 5 m- SN6 - pre-assembled* Signal lead, sold by the metre 2 x 0.25 mm2 Ø 4 mm Connecting cable LAN M12 - RJ45 5.0 m Cross-over patch cable 2x RJ45 connector 5 m LAN coupling 2x RJ45 socket 1:1 USB 2.0 SD card reader SD memory card/DXC measuring data archiving Isolating amplifier 4-channel for mA outputs of the A module

Order no. 1023425 1023426 1023427 1024420 1029660 1022155 1022154 1022592 1024568 1022137 1022139 1022140 1022141 1022160 1026589 150702 150703 1024105 1024106 1024107 725122 1026715 1027859 1027860 732981 1027470 1033536

* The CAN by-the-metre connecting kit consists of a CAN coupling M12 5P and a CAN connector M12 5P and a wiring diagram. The by-the-metre connecting cable can be configured into a cable of individual length using the CAN by-the-metre connecting kit. One CAN by-the-metre connecting kit is required for each cable to be configured. The connecting cables CAN M12 5P 0.5 m (pump 1 m) supplied with the sensors and modules must be used for the spur lines. Caution: The maximum main bus length is 400 m.

Sensor selection table (swimming pool) Sensor

CLE3-CAN-10 ppm (Order no.: 1023425) CLE3.1-CAN-10 ppm (Order no.: 1023426) CTE1-CAN-10 ppm * (Order no.: 1023427) CGE2-CAN-10 ppm (Order no.: 1024420) BRE3-CAN-10 ppm (Order no. 1029660)

Measurement task free chlorine for a small percentage of combined chlorine. Calibration method DPD 1 X

free chlorine for a large percentage of combined chlorine. Calibration method DPD 1

combined chlorine and free chlorine (differential chlorine measurement) Calibration method DPD 1+3

total available chlorine (e.g. trichlorinated isocyanuric acid) Calibration method DPD 1

Bromine BCDMH, DBDMH Calibration method DPD1 or DPD1+3

X X X * the CTE1-CAN-10 ppm sensor only works together with the CLE3.1-CAN-10 ppm sensor

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Individual devices and accessories PROFIBUS®-DP V1 gateway The CANopen - PROFIBUS®-DP V1 gateway is an interface based on CANopen, which connects the DULCOMARIN® II swimming pool controller or disinfection controller to a PROFIBUS® DP network. Here the DULCOMARIN® II is configured as the slave and the PLC as the master. Data traffic can be cyclic or acyclic. The measured values are transmitted cyclically. Setpoints can be changed in acyclic traffic, the system can be placed in pause control and Eco!Mode operation can be activated. The corresponding GSD file can be loaded from the ProMinent home page and is also contained on the enclosed data medium. The module is intended for installation in a control cabinet (top hat rail) and is connected to the CAN bus in the same way as other modules. The DULCOMARIN® II Controller should have software version 3022 or greater. Voltage supply Typical power consumption approx. Max. number of measured values Weight Dimensions L x W x H (mm) RoHS (Restriction of Hazardous Substances) CE conformity Enclosure rating

P_MSRZ_0014_SW

CANopen - PROFIBUS®-DP V1 gateway complete

24 V DC 500 mA 116 250 g 117.2 x 45 x 113.5 mm yes yes IP 20 Order no. 1044462

CLE 3-CAN Sensors for connection to a CAN interface (e.g. DULCOMARIN® II swimming pool controller) Measured variable Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

free chlorine (hypochlorous acid HOCI) DPD1 0.01…10 mg/l (auto ranging) 5.5 … 8.0 5 … 45 °C 1.0 bar 30…60 l/h (in DGM or DLG III) via CAN-interface (11 – 30 V) via integrated digital semiconductor element uncalibrated, temperature compensated, electrically isolated CANopen bus systems Swimming pools, potable water (surfactant-free)

CLE 3-CAN-10 ppm*

Order no. 1023425

pk_6_096

5-50

Complete with 100 ml electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

Swimming pool technology 2013

1.3.2013

Individual devices and accessories CLE 3.1-CAN Sensor for connection to a CANopen interface (e.g. DULCOMARIN® II swimming pool controller) Measured variable

Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

free chlorine (hypochlorous acid HOCI) with large proportions of bound chlorine; to detect bound chlorine using DULCOMARIN® II and Sensor for Total Chlorine type CTE 1-CAN DPD1 0.01…10.0 mg/l 5.5 … 8.0 5 … 45 °C 1.0 bar 30…60 l/h (in DGMa or DLG III) via CAN-interface (11 – 30 V) via integrated digital semiconductor element uncalibrated, temperature compensated, electrically isolated CANopen bus systems Swimming pools, potable water with a higher percentage of bound chlorine (surfactant-free) Order no. 1023426

CLE 3.1-CAN-10 ppm*

* Complete with 100 ml electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

CTE 1-CAN Sensor for connection to a CAN interface (e.g. DULCOMARIN® II swimming pool controller) Measured variable Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

total chlorine DPD4 0.01…10.0 mg/l 5.5 … 9.5 5 … 45 °C 3.0 bar 30…60 l/h (in DGMa or DLG III) via CAN interface (11 – 30 V) via built-in semiconductor device uncalibrated, temperature-compensated, electrically isolated CANopen bus systems CTE 1-mA-0.5 ppm: potable water, cooling water; CTE 1-mA-2/5/10 ppm: potable water, industrial, process, cooling water in swimming pools in combination with CLE 3.1 to determine combined chlorine.

Note: The CTE1-CAN-10 ppm sensor only works together with the CLE3.1-CAN-10 ppm sensor CTE 1-CAN-10 ppm*

Order no. 1023427

* Complete with 100 ml electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

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Individual devices and accessories CGE 2- CAN Sensor for connection to a CANopen interface (e.g. DULCOMARIN® II swimming pool controller) Measured variable Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

pk_6_084

Organic bound chlorine and free chlorine (e. g. trichlorinated isocyanuric acid) DPD1 0.01…10.0 mg/l 5.5 … 9.5 5 … 45 °C 3.0 bar 30…60 l/h (in DGMa or DLG III) via CAN interface (11 – 30 V) via built-in semiconductor device uncalibrated, temperature compensated, electrically isolated CANopen bus systems Swimming pool water Order no. 1024420

CGE 2-CAN-10 ppm*

*Complete with 100 ml of electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

BRE 3-CAN Sensor for connection to a CAN interface (e.g. DULCOMARIN® II swimming pool controller) Measured variable Reference method Measuring range Temperature Max. pressure Intake flow Power supply Output signal Compatibility Typical applications

Total available bromine DBDMH, free bromine: DPD1 BCDMH: DPD4 0.02…10.0 mg/l 5 … 45 °C 3.0 bar 30…60 l/h (in DGM or DLG III) via CAN interface (11 – 30 V) uncalibrated, temperature-compensated, electrically isolated CANopen bus systems Swimming pools/whirlpools and cooling water; can also be used in sea water

BRE 3-CAN-10 ppm

Order no. 1029660

* Complete with 100 ml electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN pk_6_084

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Individual devices and accessories CDR 1-CAN Sensors for connection to a CAN interface (e.g. Disinfection Controller) Measured variable

Chlorine dioxide (ClO2)

Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

DPD1 0.01…10.0 mg/l 1.0 … 10.0 5 … 45 °C 1.0 bar 30…60 l/h (in DGM or DLG III) via CAN interface (11-30 V) via integral digital semiconductor device uncalibrated, temperature-compensated, electrically isolated CANopen bus systems Contaminated industrial, process water, containing surfactants, cooling water, irrigation water, slightly contaminated waste water, warm water

P_DT_0071_SW1

Order no. 1041155

CDR 1-CAN-10 ppm

*Complete with 100 ml of electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

CLT 1-CAN Sensors for connection to a CAN interface (e.g. Disinfection Controller) Measured variable

Chlorite anion (ClO2-)

Reference method Measuring range pH range Temperature Max. pressure Intake flow Power supply Temperature measurement Output signal Compatibility Typical applications

DPD method, chlorite together with chlorine dioxide 0.10…2.0 mg/l 6.5 … 9.5 1 … 40 °C 1.0 bar 30…60 l/h (in DGM or DLG III) via CAN interface (11-30 V) via integral digital semiconductor device uncalibrated, temperature-compensated, electrically isolated CANopen bus systems Monitoring of potable water or similar water treated with chlorine dioxide. Selective measurement of chlorite and chlorine dioxide, chlorine and chlorate is also possible.

P_DT_0070_SW1

CLT 1-CAN-2 ppm

Order no. 1041156

* Complete with 100 ml of electrolyte, connecting cable - CAN M12 5-pin 0.5 m, T-distributor M12 5-pin CAN

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Individual devices and accessories

5.5

Sensors

5.5.1

Sensors for pH value PHES 112 SE pH range Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Thread Typical applications

1 … 12 0 … 60 °C 3.0 bar 150 µS/cm Ceramic Glass PG 13.5 Swimming pools, whirlpools, potable water

pk_6_016

Fitting length 120 ± 3 mm 225 ± 3 mm

PHES 112 SE PHES 112 SE

Order no. 150702 150092

PHEP 112 SE

pk_6_019

pH range Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Fitting length Thread Mounting hole Ø min. Typical applications

1 … 12 0 … 80 °C 6.0 bar 150 µS/cm Ceramic Glass 120 ± 3 mm PG 13.5 14.5 mm Swimming pools during pressurisation for higher temperatures and pressures, potable and industrial water, electroplating, chemical industries Order no. 150041

PHEP 112 SE

PHEK 112 SE

pk_6_090

pH range Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Fitting length Thread Stem diameter min. Typical applications

1 … 12 0 … 60 °C 3.0 bar 150 µS/cm Ceramic Polycarbonate 120 ± 3 mm PG 13.5 12 mm Swimming pools, potable water, aquaria Order no. 1028457

PHEK 112 SE ex HD works

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5 5.5.2

Individual devices and accessories ORP RHES-Pt-SE Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Fitting length Thread Typical applications

0 … 60 °C 3 bar 150 µS/cm Ceramic Glass 120 ± 3 mm PG 13.5 Swimming pools, whirlpools, potable water

pk_6_031

Order no. 150703

RHES-Pt-SE

RHEP-Pt-SE

pk_6_035

Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Fitting length Thread Mounting hole Ø min. Typical applications

0 … 80 °C 6.0 bar 150 µS/cm Ceramic Glass 120 ± 3 mm PG 13.5 15 mm Swimming pools during pressurisation for higher temperatures and pressures, potable and industrial water, electroplating, chemical applications, for higher temperatures and pressures. Not suitable for media containing ozone Order no. 150094

RHEP-Pt-SE

RHEK-Pt-SE Temperature Max. pressure Min. conductivity Diaphragm Sensor shaft Thread Fitting length Typical applications

0 … 60 °C 3.0 bar 150 µS/cm Ceramic Polycarbonate PG 13.5 120 ± 3 mm Swimming pools at elevated sample water pressures, potable water, lightly contaminated waste water

pk_6_091

Order no. 1028459

RHEK-Pt-SE

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5 5.5.3

Individual devices and accessories Temperature Temperature Max. pressure Thread Electrical connection Typical applications

0 … 100 °C 10.0 bar PG 13.5 SN6 Temperature measurement and pH temperature correction Order no. 305063 1002856

Pt 100 SE Pt 1000 SE pk_6_026

5.5.4

Inorganic chlorine CLE 3-mA Measured variable Reference method pH range Temperature Max. pressure Intake flow Supply voltage Output signal Typical applications Measuring and control equipment In-line probe fitting Measuring principle

free chlorine (hypochlorous acid HOCl) DPD1 5.5 … 8.0 5 … 45 °C 1.0 bar 30…60 l/h (in DGM or DLG III) 16…24 V DC (two-wire technology) 4…20 mA ≈ measuring range, temperature-compensated, uncalibrated, not electrically isolated CLE 3-mA-0,5 ppm: potable water; CLE 3-mA-2.0/10 ppm: swimming pools (surfactant-free) D1C, D2C, DAC DGM, DLG III amperometric, 2 electrodes, diaphragm-covered

pk_6_039

Measuring range 0.01…0.5 mg/l 0.02…2.0 mg/l 0.01…5.0 mg/l 0.10…10.0 mg/l 0.20…20.0 mg/l 0.50…50.0 mg/l 1.00…100.0 mg/l

Order no. 792927 792920 1033392 792919 1002964 1020531 1022786

Capacity ml 100 100 100 100

Order no.

Capacity ml Sensor cap for CLO 1 – Accessory set for CLO 1 (electrolyte, grinding disc, plug) 100 Accessory set for CLO 2 (electrolyte, grinding disc, plug) 100 Accessory set for CLE (2 membrane caps + electrolyte) 100 Accessory set for CBR 1 (2 membrane caps + electrolyte) 100 Membrane cap for types: CLE 2.2, CLE 3, CDE 1.2, CDE 2, – OZE 2 and OZE 3

Order no.

CLE 3-mA-0.5 ppm CLE 3-mA-2 ppm CLE 3-mA-5 ppm CLE 3-mA-10 ppm CLE 3-mA-20 ppm CLE 3-mA-50 ppm CLE 3-mA-100 ppm Chlorine sensors complete with 100 ml of electrolyte

Electrolyte for CLO 2 type chlorine sensor Electrolyte for CLO 1 type chlorine sensor Electrolyte for CBR 1 type chlorine/bromine sensor Electrolyte for all CLE type chlorine sensors

1035480 1035191 1038017 506270

1035197 1035482 1035483 1024611 1038984 790488

A mounting kit, order no. 815079, is required for initial fitting of the chlorine sensors in the in-line probe housing DLG III. 5-56

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1.3.2013

5 5.5.5

Individual devices and accessories Organic chlorine (total available chlorine) CGE 2-mA Measured variable

Total available chlorine: sum of organically combined chlorine (e.g. combined in cyanuric acid) and free chlorine Reference method DPD1 pH range 5.5 … 9.5 Temperature 5 … 45 °C Max. pressure 3.0 bar Intake flow 30…60 l/h (in DGM or DLG III) Supply voltage 16…24 V DC (two-wire system) Output signal 4…20 mA ≈ measuring range, temperature-compensated, uncalibrated, not electrically isolated Typical applications Swimming pool water Measuring and control equipment D1C, D2C, DAC In-line probe fitting DGM, DLG III Measuring principle amperometric, 2 electrodes, diaphragm-covered pk_6_040

CGE 2-mA-2 ppm CGE 2-mA-10 ppm

Measuring range 0.02…2.0 mg/l 0.10…10.0 mg/l

Order no. 792843 792842

Capacity ml 100 100 100 50

Order no.

Chlorine sensors complete with 50 ml of electrolyte

Electrolyte for CLO 2 type chlorine sensor Electrolyte for CLO 1 type chlorine sensor Electrolyte for CBR 1 type chlorine/bromine sensor Electrolyte for CGE/CTE/BRE type sensors

Capacity ml Accessory set for CBR 1 (2 membrane caps + electrolyte) 100 Membrane cap for CGE/CTE 1 (2/5/10 ppm) and BRE 1 – (10 ppm), BRE 2

1035480 1035191 1038017 792892 Order no. 1038984 792862

A mounting kit, order no. 815079, is required for initial fitting of the chlorine sensors in the in-line probe housing DLG III.

5.5.6

Assembly set Mounting kit for sensor/DGM for mounting amperometric sensors with R 10 connection Mounting kit for sensor/DGM

1.3.2013

Swimming pool technology 2013

Order no. 791818

5-57

Individual devices and accessories

5.6

Accessories for sensors

5.6.1

Measuring Transducer 4...20 mA (Two Wire) pH measuring transducer 4 ... 20 mA type pH V1 Measurement range Measurement error Socket Input resistance Signal current output Power supply DC Ambient temperature Enclosure rating Dimensions

pH 0 … 14 better than 0.1 pH (typical ±0.07 pH) SN6 > 5 x 1011 Ω 4 … 20 mA ≈ -500 … +500 mV ≈ pH 15.45 … -1.45 not calibrated, not electrically isolated 18…24 V DC -5…50 °C, non-condensing IP 65 141 mm (length), 25 mm (∅)

pH measurement transducer 4 ... 20 mA type pH V1

Order no. 809126

pk_5_064

ORP measuring transducer 4 ... 20 mA type RH V1 Measurement range Measurement error Socket Input resistance Signal current output Power supply DC Ambient temperature Enclosure rating Dimensions

pk_5_064

0 … 1000 mV better than ±5 mV (typical ±3 mV) SN6 > 5 x 1011 Ω 4 … 20 mA ≈ 0 … +1000 mV not electrically isolated 18…24 V DC -5…50 °C, non-condensing IP 65 141 mm (length), 25 mm (∅)

ORP measurement transducer 4 ... 20 mA type RH V1

Order no. 809127

Temperature measuring transducer 4 ... 20 mA type Pt100 V1 Measurement range Measurement error Socket Input resistance Signal current output Power supply DC Ambient temperature Enclosure rating Dimensions

pk_5_064

5-58

0 … 100 °C better than ±0,5 °C (typical ±0,3 °C) SN6 ∼0Ω 4 … 20 mA ≈ 0 … +100 °C not electrically isolated 18…24 V DC -5…50 °C, non-condensing IP 65 141 mm (length), 25 mm (∅)

Temperature measurement transducer 4 ... 20 mA type Pt 100 V1

Swimming pool technology 2013

Order no. 809128

1.3.2013

Individual devices and accessories Signal leads for pH/ORP measurement 쮿 Pre-assembled to facilitate installation 쮿 Factory tested to ensure function reliability 쮿 IP 65

pk_6_054

Type 2 x SN6 – – – SN6 - open end – – – SN6 - BNC – – SN6 - DIN – SN6 - open end d5 (DSR)

Description Coaxial cable Ø 5 mm, 0.8 m - SS Coaxial cable Ø 5 mm, 2.0 m - SS Coaxial cable Ø 5 mm, 5.0 m - SS Coaxial cable Ø 5 mm, 10.0 m - SS Coaxial cable Ø 5 mm, 2.0 m - S Coaxial cable Ø 5 mm, 5.0 m - S Coaxial cable Ø 5 mm, 10.0 m - S Coaxial cable Ø 5 mm, 20.0 m - S Coaxial cable Ø 3 mm, 10.0 m - SB Coaxial cable, Ø 5 mm, 0.8 m – SB Coaxial cable, Ø 5 mm, 2.0 m – SB Coaxial cable Ø 5 mm, 0.8 m - SD Coaxial cable Ø 5 mm, 2.0 m - SD Cable combination coax 2.0 m - S

Order no. 305077 304955 304956 304957 305030 305039 305040 304952 305099 1033988 1033011 305098 304810 1005672

Two-wire signal lead (2 x 0,25 mm2; Ø 4 mm)

For mA type chlorine / bromine / chlorine dioxide / ozone sensors and pH, ORP, Pt 100, conductivity, hydrogen peroxide (PEROX) transducers. Order no. 725122

Please specify length with order.

pH quality buffer solutions

Accuracy ±pH 0.02 (±0.05 at pH 10). The shelf life depends upon frequency of use and the amount of chemical drag-in. Alkaline buffer solutions can react with CO2 if left open. This will affect their values, therefore close after use. Buffer solutions should be replaced a maximum of three months after opening. The solution contains a biocide to prevent bacteria forming.

pk_6_058

Buffer pH 4.0 – red Buffer pH 4.0 – red Buffer pH 4.0 – red Buffer pH 5.0 – red Buffer pH 7.0 – green Buffer pH 7.0 – green Buffer pH 7.0 – green Buffer pH 9.0 Buffer pH 9.0 Buffer pH 10.0 – blue Buffer pH 10.0 – blue Buffer pH 10.0 – blue

Capacity ml 50 250 1,000 50 50 250 1,000 50 1,000 50 250 1,000

Order no. 506251 791436 506256 506252 506253 791437 506258 506254 506259 506255 791438 506260

ORP quality buffer solutions

Accuracy to ±5 mV. Shelf life depends upon frequency of use and the strength of the chemicals in sample solutions. Buffer solutions should be replaced a maximum of three months after opening. Warning: The 465 mV ORP buffer solution is an irritant!

pk_6_058

ORP buffer 465 mV ORP buffer 465 mV ORP buffer 465 mV ORP buffer 220 mV ORP buffer 220 mV

Capacity ml 50 250 1,000 50 1,000

Order no. 506240 791439 506241 506244 506245

DPD-reagents for calibration of amperometric sensors s. p. → 5-65 1.3.2013

Swimming pool technology 2013

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Individual devices and accessories DGM modular in-line probe housing To hold conductivity, Pt 100, pH or ORP sensors with PG 13.5 screw-in thread or amperometric sensors with R 1" screw-in thread. Advantages: 쮿 쮿 쮿 쮿 쮿

pk_6_066

Simple installation (completely ready-mounted on a panel); max. 7 modules on a panel Simple retrofit extension option (see extension modules) Module for sample water flow control Quick measurement recording due to low volume of sample water Each completely assembled DGM is equipped with a simple sampling tap

Ball valves on both sides for shutting off the flow and for flow adjustment Material

Max. temperature Max. pressure Max. flow rate Recommended Flow volume Flow sensor

Switching hysteresis Enclosure rating Typical applications Assembly

for pH sensors x x x x x x x x

for ORP sensors x x x x x x

for chlorine sensors x x x x x x

All modules: Transparent PVC Seals: FPM Calibration cup: PP Mounting panel: PVC white 60 °C 6.0 bar up to 30 °C 1.0 bar up to 60 °C 80 l/h 40 l/h Reed contact max. switch power 3 W max. switch voltage 175 V max. switch current 0.25 A max. operating current 1.2 A max. contact resistance 150 mΩ 20 % IP 65 Potable water, swimming pool water or water of similar quality with no suspended solids Max. 5 modules pre-assembled onto baseboard: more than 5 modules, pre-assembled onto baseboard as custom version, priced accordingly.

for temperature sensors x x

Flow sensor x x x x

Identity code / Order no. DGM A 020 T 000 DGM A 320 T 000 DGM A 011 T 000 DGM A 311 T 000 DGM A 021 T 000 DGM A 321 T 000 DGM A 031T 000 DGM A 331 T 000

x = available - = not available

Accessories Sample water filter Nylon screen Stainless steel screen Laboratory ball valve Sample water valve

5-60

Swimming pool technology 2013

Order no. 1021338 1021337 1010380 1010380 1018874

1.3.2013

Individual devices and accessories Identcode Ordering System for In-Line Probe Housing Modules

DGM

Series A Series Version Flow monitor module 1 with l/h scale 2 with gph scale (US) 3 With flow monitor, l/h scale 4 with flow monitor, gph scale (US) Number of PG 13.5 modules 0 without PG 13.5 modules 1 one PG 13.5 module 2 two PG 13.5 modules 3 three PG 13.5 modules 4 four PG 13.5 modules Number of 25 mm modules 0 No 25 mm modules 1 One 25 mm module 2 Two 25 mm modules Main material T Transparent PVC Sealing material 0 FPM A Hydraulic connectors 0 8 x 5 hose 1 PVC DN 10 threaded connector 4 Hose 12 x 6 Version 0 With ProMinent® logo 1 Without ProMinent® logo 2 With ProMinent® logo, without mounting plate 3 Without ProMinent® logo, without mounting plate A 3 2 1 T 0 0 0

Accessories supplied: 쮿 Wall fastenings for PG 13.5 modules: Calibration plate, mounting kits for PG 13.5 probes The identity code DGM A 3 2 1 T 0 0 0 describes, for example, a fully assembled configuration of a flow module with sensor, two PG 13.5 modules (e.g. for pH and ORP probes) and a 25 mm module (e.g. for CLE 3 chlorine sensor) 8 x 5 tube connectors are ready mounted.

Recommended accessories for potential equalizer plug Flow sensor for flow expansion module (optional) additional calibration cup PG 13.5 sampling tap 25 mm sampling tap Expansion module for PG 13.5 sensors Expansion module for 25 mm sensors Non-return valve

– –

Order no. 791663 791635

– for 13.5 module for 25 mm module – – –

791229 1004737 1004739 1023975 1023976 809435

쮿 max. 7 modules possible on a mounting plate 쮿 more on request

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5 5.6.2

Individual devices and accessories von Taine® solenoid-coupled rotary pumps for application = water sampling Feed pumps for liquid media

pk_3_026

von Taine® pumps are solenoid-coupled centrifugal pumps. Thanks to the solenoid coupling, the pumps transport the liquid medium from storage tank to storage tank without any leaks or indeed from a tank to a discharge line. von Taine® centrifugal pumps transport media at up to 22,500 l/h and up to a discharge lift of 23.5 metres. As the pump capacity is highly dependent on the back pressure, the performance curve must always be observed. When selecting the pumps the material compatibility must be checked and the density, viscosity and temperature of the transport medium must be considered. The transported media must not contain any solid fractions. The pump is not self-priming and requires a feed. The following material versions are available: 쮿 Pump head: PP or PVDF 쮿 Seals: FPM or EPDM The pump bearings are made from "oxide ceramics" and must not be allowed to run dry. Protect the pump against dry running. The hydraulic connectors have pipe threadings according to DIN ISO 228-1 (cylindrical external thread). max. System pressure at 20° C Suction connector (S) Discharge connector (D) Power uptake Enclosure rating Voltage/frequency Feed lift max. Feed rate at max. pressure

von Taine® 0502 PP/FPM von Taine® 0502 PVDF/FPM

1.0 G 1 1/4″ G 1″ 60 IP 55 1/230/50 4.5 1,800 Order no. 1023089 1023095

Performance curve of von Taine® 0502 PP

P_vT_0006_SW

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Individual devices and accessories

5.7

Test devices

5.7.1

Portamess Portable Meters, Measured Variable pH 쮿 쮿 쮿 쮿 쮿

Hard-wearing membrane keypad Large, easy-to-read LCD display Integrated sensor quiver to protect the sensor Sturdy housing (IP 66 degree of protection) Robust, watertight, gold-plated sockets

Applications 쮿 쮿 쮿 쮿

In industry In environmental protection In food production In water or waste water inspection

Technical Data Measuring range Measurement error Sensor adjustment Temperature compensation Enclosure rating Operating life Dimensions H x W x D Weight Included in delivery

pH: -2.00 … +16.00 mV: -1300 … +1300 pH: < 0.01 mV: < 0.1 % of measured value ±0.3 mV 8 buffer sets manual IP 66 2000 hours with 3 AA batteries 160 x 133 x 30 560 g with batteries Measuring device, carrying case, operating instructions manual in German, English and French

pk_5_099

Order no. 1008710

Portamess® 911 pH Note: The scope of delivery does not include any pH sensor.

Accessories

PHEKT-014F Coaxial cable Ø 5 mm, 0.8 m - SD* Buffer pH 7.0 Buffer pH 4.0 *

1.3.2013

Capacity ml – – 50 50

Order no. 1036537 305098 506253 506251

fitting for all ProMinent® pH sensors with SN6 connection

Swimming pool technology 2013

5-63

5 5.7.2

Individual devices and accessories Portamess Portable Meters Measured Variable, Conductivity 쮿 쮿 쮿 쮿 쮿 쮿 쮿

Connection of the LF 204 4-electrode sensor LF 204 4-electrode sensor in the scope of supply Hard-wearing membrane keypad Large, easy-to-read LCD display Integrated sensor quiver to protect the sensor Sturdy housing (IP 66 degree of protection) Robust, watertight, gold-plated sockets

Applications: 쮿 쮿 쮿 쮿

In industry In environmental protection In food production In water or waste water inspection.

Technical Data Measuring range Temperature Salinity TDS Measurement error Sensor adjustment Cell constant pk_5_098

Temperature compensation Enclosure rating Operating life Dimensions H x W x D Weight Included in delivery

Unit 0.01 µS/cm … 1,000 mS/cm,with sensor LF204: 1 µS/cm … 500 mS/cm -20 … 120 °C 0.0 … 45.0 g/kg (0 … 30 °C) 0 … 1999 mg/l (10 … 40 °C) Conductivity < 0.5 % of measured value (at conductivity levels > 500 mS/cm < 1 % of measured value) ±1 digit Temperature < 0.3 K ±1 digit Direct input of cell constants, automatic detection of cell constants with KCl solution 0.01 or 0.1 mol/l, cell adjustment with any known solution 0.010 … 199.9 cm-1 (adjustable) configurable IP 66 Approx. 1000 hours with 3 AA batteries 160 x 133 x 30 560 g with batteries Measuring unit, field case, conductivity sensor LF 204, operating instructions in the German, English, and French language

Portamess® 911 Cond

Order no. 1008713

Note: The scope of delivery does include the conductivity sensor LF 204.

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1.3.2013

Individual devices and accessories

5.7.3

Photometer DT1B, DT2C, DT3B and DT4B photometers 쮿 Transportable, compact photometer 쮿 Simple to operate with help text support 쮿 Safe, simple measurement of chlorine, chlorine dioxide, fluoride, chlorite, H2O2, bromine, ozone, pH and trichloroisocyanuric acid 쮿 Can be calibrated 쮿 Memory function 쮿 Backlit display 쮿 Real-time clock 쮿 Countdown 쮿 Watertight, degree of protection IP 68 Applications: 쮿 Swimming pools 쮿 Potable water 쮿 Process water

Technical Data Measuring range

P_DT_0074_SW Photometer

DT1: 0.05 … 6.0 mg/l free chlorine (DPD1) + total chlorine (DPD1+3) 5 ... 200 mg/l free chlorine (high range) 0.1 … 13.0 mg/l bromine (DPD1) 0.05 … 11 mg/l chlorine dioxide (DPD1) 0.03 … 4.0 mg/l ozone (DPD4) 6.5 … 8.4 pH (phenol red) 1 … 80 mg/l cyanuric acid DT2B: 0.05 … 2.0 mg/l fluoride 0.05 … 6.0 mg/l free chlorine and total chlorine 0.05 … 11.0 mg/l chlorine dioxide DT3: 1 … 50 / 40 … 500 mg/l hydrogen peroxide DT4: 0.03 … 2.5 mg/l chlorite, 0.05 … 11 mg/l chlorine dioxide, 0.05 … 6 mg/l chlorine Measuring tolerance Dependant upon measured value and measuring method Battery 4-off batteries AA/LR6 Permissible ambient temperature 5…40 °C Relative humidity 30 … 90 % (non-condensing) Enclosure rating IP 68 Material Housing material: ABS Keypad: Polycarbonate Dimensions L x W x H (mm) 190 x 110 x 55 Weight 0.4 kg

Photometer DT1B Photometer DT2C Photometer DT3B Photometer DT4B

Order no. 1039315 1039316 1039317 1039318

Photometers supplied with accessories, container vessels and reagents.

Consumable items DPD 1 buffer, 15 ml DPD 1 reagent, 15 ml DPD 3 solution, 15 ml Phenol red tablets R 175 (100 in each) Cyanuric acid tablets (100 in each) SPADNS reagent, 250 ml for fluoride detection Calibration standard fluoride 1 mg/l for calibration of photometer (fluoride detection) 1.3.2013

Swimming pool technology 2013

Order no. 1002857 1002858 1002859 305532 1039744 1010381 1010382

5-65

Individual devices and accessories 3 spare cells: round cells with covers for DPD phenol red and cyanuric acid detection (DT1 and DT2B) 3 spare cells for fluoride detection (DT2A and B) DPD reagents set, 15 ml each: 3 x DPD 1 buffer, 1 x DPD 1 reagent, 2 x DPD 3 solution Chlorine dioxide tablets no. 1 Chlorine dioxide tablets no. 2

Order no. 1007566 1010396 1007567 1039732 1039733

Spare parts Chlorite Photometer Foamer for expulsion of chlorine dioxide (DT4) 3 spare cells: round cells with covers for DPD phenol red and cyanuric acid detection (DT1 and DT2B)

Order no. 1022754 1007566

H2O2 measurement Reagent for H2O2 (DT3), 15 ml Spare cell, 5x , for H2O2 (DT3)

5.7.4

Order no. 1023636 1024072

Manual measuring device for pH / ORP / temperature Variant 1 for pH, ORP measurement and temperature, as well as simulation for functional testing of pH / ORP sensors and measuring control devices in a plastic case Manual measuring device type pH/mV/T

Order no. 1010984

Variant 2 as variant 1, but with additional pH sensor type PHEK-112-S, 0.8 m coaxial cable with 2 x SN 6-pin, pH 4 and pH 7 buffer solution (50 ml each) Manual measuring device (variant 2)

Order no. 1010985

Variant 3 as variant 2, but with additional ORP sensor type RHEK-PS, 0.8 m coaxial cable with 2 x SN 6 pin, ORP 465 mV buffer solution (50 ml each) Manual measuring device (variant 3)

5.8

Order no. 1010986

Compensating tank (surge water tank) Compensating tank for overflow pool ProMinent Dosiertechnik produces compensating tanks made of PP or PE to meet your requirements, if required also with level monitoring. Price on request

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Swimming pool technology 2013

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6 6.1

General information on water treatment Swimming pool water treatment 6.0.1Swimming pool technology 2013

The German standard DIN 19643 must be complied with when treating swimming pool water, with the exception of swimming pools in the home (private pools). It defines the microbiological, chemical and physical requirements (e.g. pH value, chlorine content, etc.) regarding the composition of the water. This includes the measurement, operation and inspection processes, with the objective of providing clear, clean and especially hygienically safe water. Swimming pool water treatment basically consists of the following components: 쮿 쮿 쮿 쮿 쮿

Circulation / flow through the swimming pool (hydraulic) Flocculation Filtration pH correction Disinfection

Circulation / flow through the swimming pool Together with the water treatment system and the circulation lines, the swimming pool represents a circulation system in which the following must be fulfilled: 쮿 optimum water exchange, that is removal of impurities 쮿 optimum distribution of the disinfection agent Hydraulic systems that work with floor returns have proved to be the most effective and possibly drain 100% of the water via the overflow gutter or wet decks. Flocculation By adding flocculents, colloidal pollutants that cannot be filtered or pollutants that have been dissolved are transformed into a form that can be filtered. They can the be extracted from the water in the subsequent filtering process. Flocculation must only be performed for public swimming pools / hotel pools / therapy pools according to DIN 19643. Filtration Filtration has the aim of retaining any pollutants found in the water. As this represents a fundamental component of the water treatment system, filter systems should always be purchased from specialist suppliers. pH value adjustment The pH value is essentially affected by the outgassing of carbon dioxide (CO2), from the disinfectant used (e.g. sodium hypochlorite) as well as by the make up water. Too low a value, i.e. acid pH values, can lead to attacks on the materials of construction, a reduction of flocculation, increased corrosion and the formation of nitrogen trichloride. The latter causes irritation to the mucous membranes. Too high a value, i.e. alkali pH values, reduce the disinfecting effect of chlorine, impair flocculation, stimulate the formation of lime scale and have an extremely negative effect of the well-being of swimming pool users. The chlorine measurement is additionally influenced negatively. This is why the pH should lie between 6.5 and 7.6 pH. The continual measurement of the pH value is carried out using appropriate pH sensors and controllers. Disinfection In accordance with DIN 19643, the disinfection of swimming pool water must only be carried out using chlorine in the form of chlorine gas, sodium hypochlorite or calcium hypochlorite solution. Organic chlorine products, as well as active oxygen, must not be used. Ozone, which is a mandatory specification for therapy pools, must only be used for oxidation and must be removed completely before the water is reintroduced into the swimming pool. Disinfection using chlorine: The process of chlorination that has proved itself throughout the world for many years is characterised by a safe and quick degermination speed with a high level of oxidation. It is therefore the disinfection process of choice in swimming pool water treatment. A decisive factor in disinfection is the concentration of free active chlorine (hypochlorous acid = HOCl). According to DIN 19643, the concentration of chlorine in a pool should lie between 0.3 and 0.6 mg per litre. With warm whirlpools, the concentration should lie between 0.7 and 1.0 mg / litre. As the concentration of chlorine is continually reduced by substances that enter the water, such as, dust, cosmetics, skin particles, bacteria and algae, a reactivation is prescribed in DIN 19643 by an automatic measuring, control and metering system. The metering systems must be designed for metering feed rates of 2 g/m3 (indoor swimming pools) or 10 g/m3 (outdoor swimming pools). Systems, such as this, are also recommended for private pools. The chlorine measurement must be carried out directly via a chlorine sensor and not via the redox voltage auxiliary parameter. This produces the following benefits: 쮿 quick response behaviour 쮿 detection of the actual concentration of chlorine present (prevents over-chlorination) 1.3.2013

Swimming pool technology 2013

6-1

General information on water treatment The redox voltage is an auxiliary hygiene parameter and is used to monitor the water quality or hygienic safety. Redox voltages of > 700 mV guarantee the quick destruction of any germs in the water. Use of ozone: The use of chlorine in conventional water treatment can lead to undesired reaction products, such as trihalomethanes and chloramines. The chloramines (bound chlorine) are responsible for the typical indoor swimming pool odour and can lead to irritation of the skin and mucous membrane. Trihalomethanes are suspected as being carcinogenic. These problems can be drastically reduced by the use of ozone. Ozone is the strongest oxidising agent approved for use in water treatment. It is usually added before the filtration stage and then any undesirable substances in the water, chloramines and turbidity, are oxidised and retained in the filter. Moreover, the content of trihalomethanes are reduced significantly below the limit values. The use of ozone in swimming pool water treatment provides the following advantages: 쮿 쮿 쮿 쮿

the water does not have an unpleasant odour the indoor air is pleasant and healthy the clarity of the water is increased considerably by the flocculating effect of the ozone no chemical by-products, as the ozone quickly decomposes to oxygen after doing its job, a desirable factor in the water.

As ozone may have a negative impact on people's health due to outgassing, it is only allowed to be used in water treatment systems in accordance with DIN 19643. It must be removed completely before the water is re-introduced into the swimming pool. Disinfection in the pool itself must be provided with chlorine. This is also recommended for domestic pools. However, active oxygen products can also be used instead of chlorine. Disinfection using active oxygen: Disinfection using active oxygen is only permitted in domestic pools. The recommendations of the chemical supplier must be observed here in all cases. Automatic measuring, control and metering units Measuring and control units record the measured values of the sensors, process them and, for example, control the metering pump according to the actual water parameters. Such systems offer the operator safety and can relieve them of a lot of work at the same time.

6-2

Swimming pool technology 2013

1.3.2013

General information on water treatment

6.2

Measuring and control system diagram

6.2.1

Configuration example A: 2-pool system Two M modules in a central unit, use of metering pumps with CANopen bus.

A B C

Swimming pool attendant's room Plant room pool 1 Plant room pool 2

pk_5_022_2

1.3.2013

Swimming pool technology 2013

6-3

General information on water treatment Measuring and control system for two filter circuits consisting of the following components: Item 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

Quantity 1 2 2 9 1 1 5 6 – – 2 2 4 4m 2

Order no. – – 1023425 included included included included included 1022160 1026589 150702 150703 1024106 725122 – – –

* The CAN by-the-metre connecting kit consists of a CAN coupling M12 5P and a CAN connector M12 5P and a wiring diagram. The by-the-metre connecting cable can be configured into a cable of individual length using the CAN bythe-metre connecting kit. One CAN by-the-metre connecting kit is required for each cable to be configured. The connecting cables CAN M12 5P 0.5 m (pump 1 m) supplied with the sensors and modules should be used for the spur lines. ** Suggested configurations Caution: The maximum main bus length is 400 m

6.2.2

DXCa function extensions for hotel and private pools (F module) The following functions are available with the basic version: Temperature control P-module control, for instance of a heat pump Accessory components required: Pt 100 or Pt 1000 Superchlorination Eco mode utilises a 2nd set of control parameters and when Eco mode is activated, it is this 2nd set of parameters which determine the control output. One way to activate Eco mode is via an inbuilt timer and if the 2nd set of parameters are set to give a higher chlorine dose, then the Eco mode function could be used to give timed superchlorination.

P_DC_0010_SW1

Circulation pump speed reduction (Frequency inverter by others required) Once all DIN 19643 or individually set parameter values have been reached, the speed of the circulation pump can be reduced. The speed reduction can be controlled in 2 ways - by timed step reduction or in relation to the ORP value. This reduces the electric power consumption. Timer control 0/4 - 20 mA

pk_5_045

6-4

This enables the direct control of a frequency converter for precise adjustment of the circulation to the current hygiene conditions. Freely programmable events: Circulation mode, backwashing, setback. Backwashing Gutter cleaning Second circuit Sample water monitoring Solar heating Chlorine reduction Internal circuit Control of attractions Swimming pool technology 2013

1.3.2013

General information on water treatment

6.3 1a 1b 1c 2 3 4a 4b 5 6a 6b 6c

Metering station

Dosing valve PTFE Injection lance PVC Injection lance PVC with shut-off cock valve Discharge tubing PE Multifunction valve Metering pump mounted on a wall bracket Metering pump mounted on a storage tank Return line PVC suction lance for 5 50 litre one-way valve l Suction line with PVC foot valve Suction Kit

P_DST_0003_SW

1.3.2013

Swimming pool technology 2013

6-5

General information on water treatment

6.4

"Reduction/Energy saving" application solution DSPaPC7A15A00D303010 DF4A flocculant metering Frequency converter 2.2 kW

Order no. – DKFL4/1.5 1030687

DULCODOS® Pool PC7 with:

1 2 3 4

Analog 4-20 mA signal CAN bus line DF4 CAN bus Circulating pump for pools

SBK_Applikationsloesung_Absenkung

6-6

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1.3.2013

6 6.5

General information on water treatment "W-LAN remote display" application solution You can use the "Remove display" package to check the status of all of your pools via a wireless connection to your iPad at any time. You also have the option of calibrating sensors for pH, redox, temperature and chlorine from your iPad, thereby significantly simplifying calibration. 1-point calibration can also be performed at the pool edge in the event of favourable pool hydraulics or if your plant room is difficult to access. The last 5 test results are saved and the display of the possible potential savings with setback is also retained. The "PoolDiary" can be downloaded from the Apple Store to record your data and operating statuses, enabling you to detect all key parameters and evaluate them using the program. DSPaPC7015A00D303010 DF4A flocculant metering iPad package (incl. access point set-up and documentation in pdf format) 16 GB + 3G

Order no. â&#x20AC;&#x201C; DKFL4/1.5 DKFA

SBK_Applikationsloesung_iPad

1.3.2013

Swimming pool technology 2013

6-7

6 6.6

General information on water treatment "Immersion tank" application solution Metering system for the volume-proportional metering of sodium hypochlorite for immersion tank applications. The metering systems ensure that disinfectant is continually fed to the system when it is operational.

AP_SW_0002_SW

The system comprises: Quantity 1 Solenoid metering pump gamma/ L GALA1602NPB900UA001000 1 Contact water meter MNR-K, Qn 2.5 m3/h, R 3/4, pulse interval 0.1

Order no. â&#x20AC;&#x201C; 304434

359032

1 1 5m 1 1

6-8

Threaded connector complete with seal for water meter, brass, R 1 G 1 1/4 Threaded connector complete with seal for water meter, brass, R 1 G 1 1/4 connection for injection valve G 1/4 5-core universal cable, 5-pin round plug Suction lance for connection to 5-60 litre non-reusable tank with 2 m long suction hose (6/4 mm) PTFE hose 6x4 mm PVC injection valve, connector 6 mm - G 1/4" for PE/PTFE line Wall brackets, complete, for ProMinent metering pumps gamma/ L, BetaÂŽ

Swimming pool technology 2013

801322

1001301 802077 037426 914559 810164

1.3.2013

General information on water treatment Calculation example for designing immersion tank metering using a "contact water meter": Requirement Water throughput Pulse interval Metering concentration Stroke volume Stroke length Capacity ACTUAL stroke rate Metering proportion

Value 1 m3/h 1 l/contact 1.2 % 0.15 ml/stroke 30 % (corresponds to 0.05 ml/stroke) 0.05 l/h (effective) 16.67 strokes / min. (max. permissible 180 strokes/min.) 0.54 mg/l

Setting/Display data: Metering proportion Concentration Stroke volume Capacity Pulse interval Service life (storage tank) with 24 h operation

1.3.2013

0.54 mg/l 1.2 % 0.05 ml/stroke 0.05 l/h 1l 32.41 days with a 35 l storage tank

Swimming pool technology 2013

6-9

7 7.1

ProMinent® Chemical Resistance List Resistance of Materials Used in Liquid Ends to the Chemicals Most Frequently Used 7.0.1Swimming pool technology 2013

The data apply to standard conditions (20 °C, 1,013 mbar). s + +/o o n => * **

= = = = = = = =

saturated solution in water resistant largely resistant conditionally resistant not resistant resistance not known see For bonded connections, the resistance of the adhesive (e.g. Tangit) is to be considered. (Materials of the types 'o' and '-' are not recommended !) = does not apply to glass fibre reinforced material

Concentration data are stated in weight percent, referred to aqueous solutions. If percentages are stated for the level of resistance, this level of resistance is only valid up to this concentration. NOTE: The elastomers CSM (Hypalon®) and IIR (butyl rubber) used as diaphragm materials in pulsation dampers have properties similar to EPDM. PTFE is resistant to all chemicals in this list. PTFE filled with carbon,however, is attacked by strong oxidants such as bromine (anhydrous) or concentrated acids (phosphoric acid, sulphuric acid, chromic acid). The resistance of PVC-U adhesive joints with Tangit deviates from the list below with regard to the following chemicals: Medium Sulfochromic acid Chromic acid Hydrochloric acid Hydrogen peroxide Hydrofluoric acid

Concentration range ≥ 70 % H2SO4+ 5 % K2Cr2O7/Na2Cr2O7 ≥ 10 % CrO3 ≥ 25 % HCl ≥ 5 % H 2O 2 ≥ 0 % HF

Explanation of abbreviations used as column headings: Acrylic: PVC: PP: PVDF: 1.4404: FPM: EPDM: Tygon: Pharmed: PE: 2.4819: WGK:

Acrylic resistance PVC, rigid, (PVC-U) resistance Polypropylene resistance PVDF resistance Stainless steel 1.4404 & 1.4571 resistance Fluorine Rubber (e.g. Viton® A & B) resistance Ethylene-Propylene-Dien-rubber resistance Tygon® R-3603 resistance Pharmed® resistance Polyethylene resistance Hastelloy C-276 resistance water endangering class

Viton® is a registered trademark of DuPont Dow Elastomers Water endangering classes (WGK): 1 2 3 (X)

= = = =

slightly hazardous to water hazardous to water severely hazardous to water No classification. Classification according to conclusion by analogy. To be used under reserve.

Safety data sheets Safety data sheets on our products in a number of different languages are provided on our website. www.prominent.com/MSDS

1.3.2013

Swimming pool technology 2013

7-1

ProMinent® Chemical Resistance List The data has been taken from relevant manufacturer´s documentation and our own tests. Resistance of materials is also dependant on other factors, e.g. operating conditions, conditions of surfaces etc, and so this list must be treated as an initial guide only. It cannot claim to offer any guarantees. It should be taken into consideration in particular that usual dosing media are compounds, and their corrosiveness cannot be deducted simply by adding the corrosiveness of each single component. In such cases the chemical producers’ data of the material compatibility are to be considered as a matter of prime importance for the material choice. A safety data sheet does not give this data and therefore cannot take the place of the technical documentation on the application.

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

HastelloyC WPC

Acetaldehyde

CH3CHO

100%

+/o

CH3CONH2

+/o

CH3COOH

100%

50%

60%

70% +

(CH3CO)2O

100%

+/o

CH3COCH3

100%

CH3COCl

100%

Acetamide Acetic Acid Acetic Anhydride Acetic Ether => Ethyl Acetate Acetone Acetophenone Acetyl Chloride Acetylacetone

C6H5COCH3 CH3COCH2COCH3

Acetylene Dichloride => Dichloro Ethylene

Acetylene Tetrachloride => Tetrachloro Ethane Acrylonitril Adipic Acid Allyl Alcohol Aluminium Acetate Aluminium Bromide Aluminium Chloride Aluminium Fluoride Aluminium Hydroxide Aluminium Nitrate Aluminium Phosphate Aluminium Sulphate Ammonium Acetate Ammonium Bicarbonate Ammonium Carbonate Ammonium Chloride Ammonium Fluoride Ammonium Hydroxide Ammonium Nitrate Ammonium Oxalate Ammonium Perchlorate Ammonium Peroxodisulphate Ammonium Phosphate Ammonium Sulphate Ammonium Sulphide Ammoniumaluminium Sulphate Amyl Alcohol Aniline Aniline Hydrochloride

CH2=CH-CN

100%

HOOC(CH2)4COOH

+/o

96%

+/o

Al(CH3COO)3 AlBr3

s s

+ +

+ n

+ +

+/o +

1 2 1

AlF3

CH2CHCH2OH

AlCl3

10%

+/o

Al(OH)3

Al(NO3)3

AlPO4 Al2(SO4)3

s s

+ +

1 1

CH3COONH4

+/o

NH4HCO3

(NH4)2CO3

40%

NH4Cl NH4F

s s

+ +

+ o

+ +

+/o +

1 1

''NH4OH''

30%

NH4NO3 (COONH4)2 * H2O

s s

+ +

+ + (25 °C) + + + +

+ +

1 1

(NH4)2S2O8 (NH4)2SO4

NH4ClO4

10%

(NH4)3PO4

10%

(NH4)2S

s s

+ +

10% n

+ +

+ n

+ +

10% n

1 2

NH4Al(SO4)2

C5H11OH C6H5NH2

100% 100%

+ -

+ +

+ +/o

+ +

1 2 2

SbCl3

C6H5NH2 * HCl

+/o

3 HCl + HNO3

100%

H3AsO4 BaCO3

s s

+ +

20% +

o +

+ +

3 1

BaCl2

Ba(OH)2

Ba(NO3)2

Barium Sulphate Barium Sulphide

BaSO4 BaS

s s

+ +

1 (1)

Benzaldehyde

C6H5CHO C6H5SO3H

Antimony Trichloride Aqua Regia Arsenic Acid Barium Carbonate Barium Chloride Barium Hydroxide Barium Nitrate

Benzene Benzene Sulphonic Acid Benzoic Acid Benzoyl Chloride Benzyl Alcohol Benzyl Benzoate

7-2

100%

C6 H 6

100%

10%

C6H5COOH

s 100%

+ -

+ n

+ o

+ n

+ o

+ +

+/o n

+ o

+ +

1 2

C6H5CH2OH

100%

C6H5COCl

C6H5COOC7H7

Swimming pool technology 2013

1.3.2013

ProMinent速 Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

HastelloyC WPC

Benzyl Chloride

C6H5CH2Cl

90%

Bitter Salt => Magnesium Sulphate Bleach => Sodium Hypochlorite Blue Vitriol => Copper Sulphate Borax => Sodium Tetraborate Boric Acid Brine Bromine (dry) Bromine Water Bromo Benzene Bromochloro Methane Bromochlorotrifluoro Ethane Butanediol Butanetriol Butanol Butyl Acetate Butyl Acetate Butyl Alcohol => Butanol Butyl Amine Butyl Benzoate Butyl Mercaptane Butyl Oleate Butyl Stearate Butyraldehyde Butyric Acid Calcium Acetate Calcium Bisulphite Calcium Carbonate Calcium Chloride Calcium Cyanide Calcium Hydroxide Calcium Hypochlorite Calcium Nitrate Calcium Phosphate Calcium Sulphate Calcium Sulphide Calcium Sulphite Calcium Thiosulphate Carbolic Acid => Phenole Carbon Disulphide Carbon Tetrachloride Carbonic Acid

H3BO3

+/o

Br2 + H2O

Br2

100% s

+ +

+ n

2 (2)

C6H5Br

100%

CH2BrCl

100%

+/o

2 (3)

HCClBrCF3

100%

HOC4H8OH

10%

C4H9OH

C4H10O3

100%

+/o

C7H13O2

100%

+/o

CH3COOC4H9

100%

+/o

C4H9NH2

100%

C6H5COOC4H9

100%

C22H42O2

100%

+/o

C22H44O2

100%

C3H7CHO C3H7COOH

100% 100%

n 20%

+ +

n +

+ +

+/o +

+/o

+ +

1 1

(CH3COO)2Ca

Ca(HSO3)2

(1)

CaCO3

CaCl2

Ca(CN)2

Ca(OH)2

Ca(OCl)2

Ca(NO3)2

50%

50% +

Ca3(PO4)2 CaSO4

s s

+ +

1 1

CaS

(2)

CaSO3

(1)

CaS2O3

CS2

100%

"H2CO3"

20%

10% +

C4H9SH

CCl4

Caustic Potash => Potassium Hydroxide Caustic Soda => Sodium Hydroxide Chloric Acid

HClO3

Chlorinated Lime => Calcium Hypochlorite Chlorine Dioxide Solution Chlorine Water Chloro Benzene Chloro Ethanol Chloro Ethylbenzene Chloro Phenole Chloro Toluene Chloroacetone Chlorobutadiene Chloroform Chlorohydrin

ClO2 + H2O

0.5%

Cl2 + H2O

100%

ClCH2CH2OH C6H4ClC2H5

100% 100%

+ o

o n

+ +

o -

+ -

+ o

+ +

3 (2)

C7H8Cl

C6H5Cl

C6H4OHCl

100%

ClCH2COCH3

100%

C4H5Cl

100% 100%

n o

n +

+ +

n -

+ +

1 2

C3H5OCl

100%

SO2(OH)Cl

CHCl3

Chloroprene => Chlorobutadiene Chlorosulphonic Acid

100%

Chrome-alum => Potassium Chrome Sulphate Chromic Acid H2CrO4 Chromium Sulphate

Chromic-Sulphuric Acid Citric Acid Cobalt Chloride

1.3.2013

50%

10%

K2CrO4+ H2SO4

Cr2(SO4)3

C6H8O7

CoCl2

Swimming pool technology 2013

7-3

ProMinent速 Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

HastelloyC WPC

Copper-II-Acetate

Cu(CH3COO)2

CuCO3

CuCl2

s s

+ +

+ 1%

+ +

2 2

Cu(CN)2

(3)

CuF2

(2)

Cu(NO3)2

+/o

CuSO4

s 100%

+ o

+ +

+ -

+ +

2 2

CH3C2H2CHO

100%

Copper-II-Arsenite Copper-II-Carbonate Copper-II-Chloride Copper-II-Cyanide Copper-II-Fluoride Copper-II-Nitrate Copper-II-Sulphate Cresols Crotonaldehyde Cubic Nitre => Sodium Nitrate

Cu3(AsO3)2

C6H4CH3OH

Cumene => Isopropyl Benzene Cyclo Hexane Cyclohexanole Cyclohexanone

C6H12

100%

+/o

C6H10O

100%

+/o

C6H11NH2

C6H11OH

Cyclohexyl Alcohol => Cyclohexanol Cyclohexylamine Decahydronaphthaline

100%

C10H18

100%

+/o

C6H12O2 C4H9OC4H9

Decaline => Decahydronaphthalene Dextrose => Glucose Diacetonalcohol Dibromoethane Dibutyl Ether Dibutyl Phthalate Dibutylamine Dichloro Acetic Acid Dichloro Benzene Dichloro Butan Dichloro Butene Dichloro Ethane Dichloro Ethylene Dichloro Methane Dichloroisopropyl Ether Dicyclohexylamine Diethyleneglycol Diethyleneglycolethyl Ether Diethylether Diglycolic Acid Dihexyl Phthalate Diisobutylketone Di-iso-nonyl Phthalate Diisopropylketone Dimethyl Carbonate Dimethyl Ketone => Acetone Dimethyl Phthalate Dimethylformamide Dimethylhydrazine Dioctyl Phthalate Dioxane Disodium Hydrogenphosphate Disulfur Acid -- Oleum Disulphur Dichloride DMF => Dimethylformamide Engine Oils

100%

C2H4Br2

100%

C16H22O4

(C4H9)2NH

100% 100%

+ +

+ -

+/o -

o n

+ n

o +

+ +

2 1

100%

C6H4Cl2

100%

C4H6Cl2 C2H4Cl2

100%

CH2Cl2

(C6H12)2NH

Cl2CHCOOH

C4H8Cl2

C2H2Cl2

100%

(C3H6Cl)2O

100%

(2)

C4H10O3

100% s

o +

n +

+ +

o +

+ +

2 1

C8H18O3

100%

+/o

C2H5OC2H5

100%

C4H6O5

30%

+/o

C20H26O4 C9H18O

100% 100%

+ +

n +

o -

+ -

+ +

(1) 1

C26H42O4

100%

C7H14O

100%

(CH3O)2CO

100%

C10H10O4 HCON(CH3)2

100% 100%

+ +

+ -

+ +

+/o +

o -

+ +/o

+ +

1 1 3

C4H4(COOC8H17)2

H2NN(CH3)2

100%

+/o

C4H8O2

100%

+/o

Na2HPO4

S2Cl2

100%

100 % n

+/o

C2H5OH

100%

+/o

CH3COOC2H5

C2H3COOC2H5

100% 100%

35% + + o

+ +

+/o +/o

+/o -

+ +

1 2

C6H5-C2H5

100%

C6H5COOC2H5

100%

C2H5Br

100%

ClCH2COOC2H5 ClCO2C2H5

100%

(2)

100%

(1)

Epsom salts => Magnesium Sulphate Ethanol Ethanol Amine Ethyl Acetate Ethyl Acrylate Ethyl Benzene Ethyl Benzoate Ethyl Bromide Ethyl Chloroacetate Ethyl Chlorocarbonate Ethyl Cyclopentane 7-4

HOC2H4NH2

C5H4C2H5

Swimming pool technology 2013

1.3.2013

ProMinent® Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

Ethylacetoacetate

C6H10O3

100%

+/o

100%

+/o

(1)

100%

HOC2H4OC2H5

Ethylacrylic Acid Ethylene Diamine

C4H7COOH

(CH2NH2)2 Ethylene Dibromide => Dibromoethane

HastelloyC WPC

Ethylene Dichloride => Dichloro Ethane Ethylene Glycol => Glycol Ethylenglycol Ethylether Ethylhexanol Fatty Acids Ferric Chloride Ferric Nitrate Ferric Phosphate Ferric Sulphate Ferrous Chloride Ferrous Sulphate

100%

+/o

C8H16O

100%

+/o

R-COOH

100%

FeCl3

+/o

Fe(NO3)3

FePO4

Fe2(SO4)3

FeCl2

+/o

FeSO4

Fixing Salt => Sodium Thiosulphate Fluoro Benzene Fluoroboric Acid Fluorosilicic Acid Formaldehyde Formalin => Formaldehyde Formamide Formic Acid Furane Furane Aldehyde Furfuryl Alcohol Gallic Acid Gasoline

C6H5F

100%

HBF4 H2SiF6

35% 100%

+ +

+ 30%

+ + 30% +

o o

+ +

+ 25%

+ + 40% +/o

1 2

CH2O

40%

+/o

HCONH2

100%

HCOOH

+/o

C4H4O C5H5O2

100% 100%

+ n

+ +

n +/o

+ n

3 2

100%

+/o

C6H2(OH)3COOH

+/o

100 % -

2 1

OC4H3CH2OH

Glauber´s Salt => Sodium Sulphate Glucose

C6H12O6

100%

C3H5(CH3COO)3

100%

10%

C2H4(OH)2 CH2OHCOOH

100% 70%

+ +

+ 37%

+ +

+ +/o

+ +

1 1

C7H16

100%

C5H11CHO C6H14

100% 100%

n +

+ +

+/o -

+ +

100%

C6H9(OH)3

100%

N2 H 4 * H 2 O

HBr

50%

Hydrochloric Acid

HCl

38%

32% + *

Hydrofluoric Acid

80%

40%

40% +/o

HCN H2O2

s 90%

40% + ** + + 30% +

Hydrogen Cyanide Hydrogen Peroxide

40% * + + 40% 40%*

+ +

+ + 30% 30%

+ 30%

+ +

3 1

C6H4(OH)2

+/o

(NH2OH)2 * H2SO4

10%

HOCl

+/o

(1)

+/o

C2H5CH(OH)CH3

Glycerol Glycerol Triacetate Glycine Glycol Glycolic Acid Gypsum => Calcium Sulphate Heptane Hexachloroplatinic Acid Hexanal Hexane Hexanol Hexantriol Hexene Hydrazine Hydrate Hydrobromic Acid

Hydroiodic Acid Hydroquinone Hydroxylamine Sulphate Hypochlorous Acid Iodine Iron Vitriol => Ferrous Sulphate

C3H5(OH)3

NH2CH2COOH

H2PtCl6

C6H13OH

C6H12

1 1

Isobutanol => Isobutyl Alcohol Isobutyl Alcohol

100%

Isopropanol => Isopropyl Alcohol Isopropyl Acetate CH3COOCH(CH3)2 Isopropyl Benzene

Isopropyl Alcohol

Isopropyl Chloride Isopropyl Ether

100%

+/o

(CH3)2CHOH

100%

+/o

C6H5CH(CH3)2

100%

CH3CHClCH3

80%

+/o

C6H14O

100%

C3H6O3

100%

+/o

10%

+/o

Kitchen Salt => Sodium Chloride Lactic Acid 1.3.2013

Swimming pool technology 2013

7-5

ProMinent速 Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

HastelloyC WPC

Lead Acetate

Pb(CH3COO)2

Pb(NO3)2

50%

PbSO4

(2)

100%

Lead Nitrate Lead Sugar => Lead Acetate Lead Sulphate Lead Tetraethyl

Pb(C2H5)4

Lime Milk => Calcium Hydroxide

Liquid Ammonia => Ammonium Hydroxide Lithium Bromide

LiBr

Lithium Chloride

LiCl

MgCO3

Lunar Caustic => Silver Nitrate Magnesium Carbonate

+/o

MgCl2

Mg(OH)2

Mg(NO3)2

MgSO4

+/o

C4H4O4

C4H6O5

MnSO4

MnCl2

s s

+ +

1 1

Mercury

100%

Mercury-II-Chloride

HgCl2

Hg(NO3)2

s 100%

+ -

+ n

+ +

+ -

+ +/o

+ -

+ n

+ +

3 1

C3H5COOH

100%

+/o

100%

+/o

CH3O(CH2)4OH

100%

(1)

60%

+/o

100%

+/o

100%

Magnesium Chloride Magnesium Hydroxide Magnesium Nitrate Magnesium Sulphate Maleic Acid Malic Acid Manganese-II-Chloride Manganese-II-Sulphate MEK => Methyl Ethyl Ketone

Mercury-II-Cyanide Mercury-II-Nitrate Mesityl Oxide Methacrylic Acid Methanol Methoxybutanol Methyl Acetate Methyl Acrylate Methyl Benzoate Methyl Catechol Methyl Cellulose Methyl Chloroacetate Methyl Cyclopentane Methyl Dichloroacetate Methyl Ethyl Ketone Methyl Glycol Methyl Isobutyl Ketone Methyl Isopropyl Ketone Methyl Methacrylate Methyl Oleate Methyl Salicylate Methylacetyl Acetate

Hg(CN)2 C6H10O CH3OH

CH3COOCH3 C2H3COOCH3 C6H5COOCH3

C6H3(OH)2CH3

(1)

ClCH2COOCH3 C5H9CH3

100% 100%

o +

+ +

o +

+ +

2 (1)

Cl2CHCOOCH3

100%

CH3COC2H5

100%

C3H8O2

100%

+/o

CH3COC4H9 CH3COC3H7

100% 100%

+ +

o +/o

+ +

1 1

C3H5COOCH3

100%

C17H33COOCH3

100%

+/o

HOC6H4COOCH3

100%

+/o

C5H8O3

100%

+/o

32%

C4H9ON

100%

(CH3COO)2Ni

(2)

Ni(NO3)2

Methylamine CH3NH2 Methylene Chloride => Dichloro Methane Mirabilit => Sodium Sulphate Morpholine

Muriatic Acid => Hydrochloric Acid Natron => Sodium Bicarbonate Nickel-II-Acetate Nickel-II-Chloride Nickel-II-Nitrate Nickel-II-Sulphate

NiCl2

+/o

NiSO4

+/o

Nitrate of Lime => Calcium Nitrate Nitric Acid HNO3 Nitro Propane

Nitro Methane Nitro Toluene Octane Octanol Octyl Cresol

Oil => Engine Oils Oleum

99%

10% 10%*

50% 65%

50%

65% 10%

35%

50% 65%

CH3NO2

100%

+/o

(CH3)2CHNO2

100%

+/o

C6H4NO2CH3

100%

C8H18 C8H17OH

100% 100%

o -

+ -

+ +

1 1

C15H24O

100%

(1)

H2SO4 + SO3

Orthophosphoric Acid => Phosphoric Acid

7-6

Swimming pool technology 2013

1.3.2013

ProMinent® Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

Oxalic Acid

(COOH)2

10%

+/o

C5H12

100%

HClO4

70%

10%

10% +

+/o

CnH2n+2

C6H5NHNH2 POCl3

Pentane Pentanol => Amyl Alcohol Perchloric Acid

HastelloyC WPC

Perchloroethylene => Tetrachloro Ethylene Perhydrol => Hydrogen Peroxide Petroleum Ether

100%

+/o

C6H5OH C6H5OC2H5

100% 100%

+ +

+ n

+ +

+ -

10% -

+ -

+ +

2 2

100%

H3PO4

85%

50% +

100%

PCl3

100%

+/o

C6H4(COOH)2

C5H11N

100%

Potassium Aluminium Sulphate KAl(SO4)2

CH3COOK

s s

+ +

1 1

KHCO3

40%

+/o

Potassium Bifluoride

KHF2

KHSO4

KC4H5O6

KBO2 KBrO3

s s

+ +

(1) 2

KBr

10%

0,1

K2CO3

55%

KClO3

KCl

+/o

K2CrO4

Phenole Phenyl Ethyl Ether Phenyl Hydrazine Phosphoric Acid Phosphorous Oxychloride Phosphorous Trichloride Phthalic Acid Picric Acid Piperidine

C6H2(NO3)3OH

Potash Alum => Potassium Aluminium Sulphate Potassium Acetate Potassium Bicarbonate Potassium Bisulphate Potassium Bitartrate Potassium Borate Potassium Bromate Potassium Bromide Potassium Carbonate Potassium Chlorate Potassium Chloride Potassium Chromate

10%

Potassium Cyanate

KCr(SO4)2

KOCN

Potassium Cyanide

KCN

Potassium Cyanoferrate II Potassium Cyanoferrate III

K4Fe(CN)6 K3Fe(CN)6

s s

+ +

1 1

25%

10%

Potassium Fluoride

Potassium Hydroxyde

KOH

50%

10%

Potassium Iodide

+ + (25 °C) + +

Potassium Nitrate

KNO3

KClO4

KMnO4 K2S2O8

s s

+ +

6% +

+ +

2 1

KH2PO4

K2SO4

C2H5COOH CH3CH2CN

100% 100%

o n

+ n

+ +

+ -

+/o -

+ +

1 2

100%

+/o

CH3CHOHCH2OH

100%

C5H5N

C4H4NH

100% 100%

o +

+ +

o -

+ +

2 2

HOC6H4COOH

+/o

Potassium Chrome Sulphate

Potassium Dichromate

Potassium Perchlorate Potassium Permanganate Potassium Persulphate Potassium Phosphate

K2Cr2O7

Potassium Pyrochromate => Potassium Dichromate Potassium Sulphate Potassium Sulphite Propionic Acid Propionitrile Propyl Acetate Propylene Glycol

K2SO3

CH3COOC3H7

Prussic Acid => Hydrogen Cyanide Pyridine Pyrrole

Roman Vitriol => Copper Sulphate Salicylic Acid

Salmiac => Ammonium Chloride

Saltpeter => Potassium Nitrate Silic Acid SiO2 * x H2O Silver Bromide

AgBr

+/o

Silver Chloride

AgCl

+/o

Silver Nitrate

AgNO3

+/o

NaCH3COO

Slaked Lime => Calcium Hydroxide Soda => Sodium Carbonate Sodium Acetate 1.3.2013

Swimming pool technology 2013

7-7

ProMinent® Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

HastelloyC WPC

Sodium Benzoate

C6H5COONa

NaHSO4 NaHSO3

s s

+ +

1 1

NaBO2

NaBrO3

NaBr

Na2CO3

s s

+ +

+/o +

+ +

1 2

Sodium Chloride

NaCl

Sodium Chlorite

NaClO2

24%

10%

Na2CrO4

NaCN

Na2Cr2O7

10%

10% +

10% +/o

NaF

10%

30%

1 2

Sodium Bicarbonate Sodium Bisulphate Sodium Bisulphite Sodium Borate Sodium Bromate Sodium Bromide Sodium Carbonate Sodium Chlorate

Sodium Chromate Sodium Cyanide Sodium Dichromate Sodium Dithionite Sodium Fluoride

NaHCO3

NaClO3

Na2S2O4

Sodium Hydrogen Sulphate => Sodium Bisulphate Sodium Hydroxide

NaOH

50%

Sodium Hypochlorite

NaOCl + NaCl

12%

+ + (60%/ 25 °C) + -

> 10%

Sodium Iodide

NaI

Sodium Metaphosphate

(NaPO3)n

NaNO3

NaNO2 Na2C2O4

s s

+ +

2 1

NaBO2*H2O2

+/o

NaClO4

10%

Na2O2

Na2S2O8

s s

n +

+ +

+ n

+ +

1 1

C6H4(OH)COONa

Sodium Nitrate Sodium Nitrite Sodium Oxalate Sodium Perborate Sodium Perchlorate Sodium Peroxide Sodium Persulphate Sodium Pyrosulphite Sodium Salicylate Sodium Silicate Sodium Sulphate Sodium Sulphide Sodium Sulphite Sodium Tetraborate Sodium Thiosulphate Sodium Tripolyphosphate Starch Starch Gum Styrene

Na2S2O5

+/o

Na2SiO3

Na2SO4

Na2S

Na2SO3 Na2B4O7 * 10 H2O

s s

+ +

50% +

+ +

50% +

1 1

Na2S2O3

25%

Na5P3O10

+/o

(C6H10O5)n

C6H5CHCH2

100%

C4H6O4

H2SO4

98%

30% 50%

20%

30%

80% +

H2SO3

Sublimate => Mercury-II-Chloride Succinic Acid Sugar Syrup

Sulphur Chloride => Disulphur Dichloride Sulphuric Acid

85% +

Sulphuric Acid, fuming --> Oleum Sulphurous Acid Sulphuryl Chloride Tannic Acid Tartaric Acid Tetrachloro Ethane Tetrachloro Ethylene

10%

(1)

SO2Cl2

100%

C76H52O46 C4H6O6

50% s

+ + 50% +

+ +

+ +/o

+ +

1 1

C2H2Cl4

100%

C2Cl4

100%

Tetrachloromethane => Carbon Tetrachloride Tetrahydro Furane

C 4H8O

100%

SOCl2

100%

SnCl2

SnSO4

s s

+ n

o +

+ +

+/o +/o

1 (1)

SnCl4

TiCl4

100%

C6H5CH3

100%

Tetrahydro Naphthalene C10H12 Tetralin => Tetrahydro Naphthalene THF => Tetrahydrofurane Thionyl Chloride Thiophene Tin-II-Chloride Tin-II-Sulphate Tin-IV-Chloride Titanium Tetrachloride Toluene

7-8

C4 H 4 S

Swimming pool technology 2013

1.3.2013

ProMinent速 Chemical Resistance List

Chemical

Formula

Conc

Acryl PVC

PVDF 1.4404 FPM EPDM Tygon PharMed PE

Toluene Diisocyanate

C7H3(NCO)2

100%

+/o

100%

CCl3CH3 C2HCl3

100% 100%

o o

+ +

+ +/o

+ o

o o

+ +

3 3

CCl3CH(OH)2

CCl3COOH

Tributyl Phosphate Trichloro Ethane Trichloro Ethylene

(C4H9)3PO4

HastelloyC WPC 2

Trichloro Methane => Chloroform Trichloroacetaldehyde Hydrate Trichloroacetic Acid Tricresyl Phosphate Triethanol Amine Trilene => Trichloro Ethane Trioctyl Phosphate Trisodium Phosphate Urea Vinyl Acetate Water Glass => Sodium Silicate Xylene Zinc Acetate Zinc Chloride Zinc Sulphate

1.3.2013

50%

+/o

(C7H7)3PO4

90%

N(C2H4OH)3

100%

+/o

(C8H17)3PO4 Na3PO4

100% s

n +

+ +

o +

+ +

o +

+ +

2 1

CO(NH2)2

+/o

20%

CH2=CHOOCCH3

100%

+/o

C6H4(CH3)2

ZnCl2

100%

(CH3COO)2Zn

ZnSO4

+/o

Swimming pool technology 2013

7-9

7 7.2

ProMinent速 Chemical Resistance List Pump Specification Data

pk_0_002

7-10

Swimming pool technology 2013

1.3.2013