DPVCI insteekpomp - technische data duijvelaar pompen by duijvelaar pompen

Vertical centrifugal immersible pumps

Technical specification booklet series: DPVCI 2 - 4 - 6 - 10 - 15 50Hz / 60Hz (DIN/IEC)

Table of Contents 1

4 5

Pump introduction

1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9

General .................................................................................................................................................. 5 Model key............................................................................................................................................... 5 Operation ............................................................................................................................................... 5 Measuring, draining and venting............................................................................................................ 5 Working range........................................................................................................................................ 6 Basic material variants........................................................................................................................... 6 Pump bearing......................................................................................................................................... 7 Modular selection................................................................................................................................... 7 Approval................................................................................................................................................. 7

Performance characteristics

2.1 2.2 2.3 2.4 2.5 2.6

Performance range 50Hz....................................................................................................................... 8 Performance range 60Hz....................................................................................................................... 8 Performance curve details ..................................................................................................................... 9 Minimum efficiency index....................................................................................................................... 9 Performance with variable frequency drive............................................................................................ 9 How to read the values from the curves .............................................................................................. 10

Curves and dimensions

3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20

Hydraulic performance curve DPVCI 2 B - 50Hz -2 pole ..................................................................... 12 DPVCI 2 B - 50Hz - 2 pole - DIN.......................................................................................................... 13 Hydraulic performance curve DPVCI 4 B - 50Hz - 2 pole .................................................................... 14 DPVCI 4 B - 50Hz - 2 pole - DIN.......................................................................................................... 15 Hydraulic performance curve DPVCI 6 B - 50Hz - 2 pole .................................................................... 16 DPVCI 6 B - 50Hz - 2 pole - DIN.......................................................................................................... 17 Hydraulic performance curve DPVCI 10 B - 50Hz - 2 pole .................................................................. 18 DPVCI 10 B - 50Hz - 2 pole - DIN........................................................................................................ 19 Hydraulic performance curve DPVCI 15 C - 50Hz - 2 pole.................................................................. 20 DPVCI 15 C - 50Hz - 2 pole - DIN ....................................................................................................... 21 Hydraulic performance curve DPVCI 2 B - 60Hz -2 pole ..................................................................... 22 DPVCI 2 B - 60Hz - 2 pole - DIN.......................................................................................................... 23 Hydraulic performance curve DPVCI 4 B - 60Hz - 2 pole .................................................................... 24 DPVCI 4 B - 60Hz - 2 pole - DIN.......................................................................................................... 25 Hydraulic performance curve DPVCI 6 B - 60Hz - 2 pole .................................................................... 26 DPVCI 6 B - 60Hz - 2 pole - DIN.......................................................................................................... 27 Hydraulic performance curve DPVCI 10 B - 60Hz - 2 pole .................................................................. 28 DPVCI 10 B - 60Hz - 2 pole - DIN........................................................................................................ 29 Hydraulic performance curve DPVCI 15 C - 60Hz - 2 pole.................................................................. 30 DPVCI 15 C - 60Hz - 2 pole - DIN ....................................................................................................... 31

Seals

4.1

Mechanical seal option specifications.................................................................................................. 32

Motors and motor options

5.1 5.2 5.3 5.4

Materials

6.1

Parts overview ..................................................................................................................................... 36

Medium handled

7.1

Medium handled .................................................................................................................................. 41

Pump introduction

1.1

General

The vertical, single or multistage centrifugal immersible pump series is designed for pumping water, filtered cooling fluids or lightly aggressive, watery mediums from a storage tank. The suction side at the bottom of the pump is equipped with a stainless steel strainer. The discharge side is located at the motor stool. Where the required duty point corresponds with the amount of stages, in some applications the immersible length has to diver from this. Therefor it is possible for the DPVCI range to use empty stages to create the required length. In that case the impellers are mounted in the casings closest to the suction casing.

DPVCI

The hydraulic assembly is driven by an electric motor. All hydraulic parts of the pump are made of stainless steel.

1.2

Model key

Table 1: Model key Example DPVCI 10/8(18) B Label Material

DP VCI 10 DP VCI 10

(18)

/8 (18) B

1.3

Product Label Cast Iron suction casing and motor stool, 1.4301 / AISI 304 hydraulics Appr. capacity in m3/h at Qopt Number of impellers Total number of stages Design version

Operation

During centrifugal operation of the pump an negative pressure is created at the inlet of the first impeller. This negative pressure enables the medium to enter the pump at the suction connection at the bottom of the pump. Every impeller is placed in a stage casing. The passage of this stage determines the capacity of the pump. The diameter of the stages is related to the centrifugal forces and its “stage pressure”: the more stages, the more pressure. This total capacity and raised pressure will be guided to the outside of the pump at the motor stool.

1.4

Measuring, draining and venting

The pump is provided with plugs for measuring and venting, both located at the pump outlet connection. These connections are meant to vent the pump system when the pump is not in operation or to measure the discharge pressure of the pump using a G 1/4 connection. Also on the motor stool two connections are available to vent the storage tank.

Working range

Table 4: Minimum capacity vs.temperature (in % of Q optimum)

The working range is depending on the application and the combination of pressure and temperature. For specific and detailed limits please consult the working ranges as described in the paragraph 1.8. The overall working range of the pumps can be summarised as follows: Table 2: Specification of the working range Pump type Ambient temperature [°C] Minimum inlet pressure

DPV

Viscosity [cSt] Density [kg/m3]

1-100 1000-2500 forced motor cooling 30 60 5µm to 1mm

Cooling Minimum frequency [Hz] Maximum frequency [Hz] Allowable size of solids pumped 1.

1.5.1

note

-20 up to 40 NPSHreq. + 1m

25 20 15 10 5 0 50

100

110

120

130

140

2 3 4

Minimum capacity

1.5.2 Minimum fluid level For ambient fluid conditions the minimum fluid level for the pumps in the storage tank is mentioned at the dimensions pages. In case of an increased required vapour pressure for fluids at higher operation temperatures, a system analyses is recommended to determine the required NPSH to avoid cavitation and air enclosure inside the pump.

1.5.3

Ambient temperature and higher altitude If the ambient temperature exceeds the maximum allowed value, or if the motor is located more than 1000 m above sea level, the motor cooling is less effective and could require an adapted motor power. See below table for the change in power output or contact your supplier for more detailed advice. Table 5: Increase of required motor power

Table 3: Minimum capacity (Qmin)

2 4 6 10 15

If the ambient temperature exceeds the above value or the motor is located more than 1000 m above sea level, please see 1.5.3 Deviation in viscosity and/or density could require an adapted motor power. Please contact your supplier for more detailed advice. The free space above the motor cooling fan must be at least 1/4 of the diameter of the inlet of the cooling fan in order to have a sufficient flow of (cooling) air. Pumps that are intended for 50 Hz operation, may not be connected to 60 Hz power supply.

Qmin [m3/h] 50 Hz 2 pole 0,2 0,4 0,6 1,1 1,9

A minimum capacity has to be secured to prevent the pump from overheating, gathering gas, cavitation etc. The minimum capacity corresponds to all percentage of the optimum flow Qopt in relation to the temperature of the liquid pumped. Also a minimum medium level needs to be taken into consideration.

size

Q [%]

For minimum capacity at medium temperature of 20 oC, see table 3: for higher temperatures, see table 4.

ID3675

60 Hz 2 pole 0,2 0,5 0,8 1,3 2.3

3675

1.5

Ambient temperature [°C] 40 45 50 55 60 65 70

1.6

Above sea level [m] 1000 1625 2250 2875 3500 4125 4750

Increase of required power 0% 2% 5% 11% 18% 25% 33%

Basic material variants

Table 6: Basic material variants Model VC

Hydraulic 1.4301

Casing JL1040

* see medium handled list for correct seal material

Sealing EPDM*

1.7

Pump bearing

Medium lubricated stage bearing Tungsten Carbide against Ceramic

1.8

Modular selection

To suit almost every application the pump is assembled out of modules which can be selected depending on the required working range. Basic modules are:

• • •

•

Basic pump model, which defines the capacity, pressure and basic material. Temperature range -20 up to 120 oC Total stages, which defines the length of the pump suitable for the storage tank. Sealing, which define the elastomers and the mechanical seal. A cartridge seal construction is equipped as default. Temperature and pressure range, see chapter 4.1 Electric motor, which defines all requirements of the motor such as motor size, power, voltage, frequency and all possible motor accessories. For assembling the total amount of stages to the motor stool an additional upper stage casing is required. Therefor when all visible stage stages are counted from the hydraulics, the sum will be the total amount of stages added by 1.

1.9 CE

Approval Conformity with European Safety Directive

Performance characteristics

2.1

Performance range 50Hz

Figure 1: Performance range DPVCI 2, 4, 6, 10B, 15C 50Hz

2.2

Performance range 60Hz

Figure 2: Performance range DPVCI 2, 4, 6, 10B, 15C 60Hz

2.3

Performance curve details

The performance diagrams give a global overview of all the pump models the shaded models are mentioned in this documentation. Detailed characteristics are given for each model showing the hydraulic efficiency, NPSHreq, and shaft power as well. The performance of the pump depends on the number of stages. As per example:

DPVCI 4/20(18) B:

series 4

2.5

Performance with variable frequency drive

The minimum frequency of the DP motor should be limited to 30 Hz to ensure sufficient cooling. When the rotational speed exceeds the nominal speed of the motor, make sure that the power output of the motor is suitable to drive the corresponding pump model. The performance of the pump differs from the fixed speed performance according to the recalculation scheme.

20 stages with 18 full head impellers

The detailed performance curves are in accordance with ISO 9906:2012 (Grade 3B). The pumps van be configured with multiple types of motors. Therefore the performance data, like Q/H, efficiency and shaft power used for published curves are converted to the average speed per motor power. To refine this data the published data has to be corrected accordingly.

The characteristics given are based on: De-aerated water at a temperature of 20 °C Density of 1,0 kg/dm3 Kinematical viscosity of 1 mm2/s (1 cst)

• • •

2.4

Minimum efficiency index

Per January 1st 2015 for multistage pumps (reference 50Hz and 2 poles) a new Commission Regulation (EU) No 547/2012 as part of the Directive 2009/125/EC is mandatory. According to this the pumps need to apply to a new Minimum Efficiency Index (MEI). This value is set to be >= 0.40 For the design version 2 - 10B, 15C immersible pump range the following values are applicable: Table 7: Minimum efficiency index Pump range DPV 2 DPV 4 DPV 6 DPV 10 DPV 15

Minimum Efficiency index MEI ≥ 0.70 MEI ≥ 0.70 MEI ≥ 0.70 MEI ≥ 0.70 MEI ≥ 0.70

ID3238

n2 Q1 n1

H2 n2

hydr.

Q P/st. n1

n2 n1

3 3

Q n1

NPSH 2

Q2 Q1 Figure 3: Performance characteristics

2.6 10

How to read the values from the curves

To find the required hydraulic information from the published curves, it is important to know the application in which the pump has to be installed. There are two main distinction to be made: A Flow determined (like booster sets and cleaning) Opening taps B Pressure determined (like boiler feed and reverse osmosis systems) Facing counter pressure.

n2 n1

2 2

3238/08072008

NPSH req.

3227

Pump size / no of stages. Installed motor power Capacity @ Pressure

NPSH (m)

Hydraulic efficiency (%)

Figure 4: How to read the values from the curves O  A B

3227/04072008

Required power (P2)

Calculated duty point Actual hydraulic performance Flow determined Pressure determined

Curves and dimensions

3.1

Hydraulic performance curve DPVCI 2 B - 50Hz -2 pole

ID3424

[IM.gpm]

250 800 2/30 2,2 kW 2/28 2,2 kW 2/26 2,2 kW

200 2/24 2,2 kW

600 2/22 2,2 kW 2/20 1,5 kW

150 2/18 1,5 kW

Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

2/16 1,5 kW

400 2/14 1,1 kW

100 2/12 1,1 kW [ft]

2/11 1,1 kW 2/10 0,75 kW [m] 2/9 0,75 kW 2/8 0,55 kW

200

2/7 0,55 kW

50 2/6 0,55 kW 2/5 0,37 kW 2/4 0,37 kW 2/3 0,37 kW 2/2 0,37 kW

0 0.0

0.5

0.0 8 NPSHR

[m³/h] 0.2

0 1.0 [l/s]

1.5

2.0

0.4

2.5 0.6

3.0 0.8

3.5 1.0 20 [ft]

[m]

0 60 Eta

% 0

Leistungsbedarf 0.08 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0 ȡ = 1000.0 kg/m³

[hp]

0.5

[m³/h]

0.0 1.0

1.5

2.0

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 5: Performance curve DPVCI 2 B - 50Hz - 2 pole

2.5

3.0

3.5 20090370-E/0

20090370 E

0.0

0.1

3.2

DPVCI 2 B - 50Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 2/16(30) F3=396mm, F4=732mm. Table 8: General dimensions ID3436

Model

Seal pressure

Full stage

*including packing

2/2(2) 2/3(3) 2/4(4) 2/5(5) 2/6(6) 2/7(7) 2/8(8) 2/9(9) 2/10(10) 2/11(11) 2/12(12) 2/14(14) 2/16(16) 2/18(18) 2/20(20) 2/22(22) 2/24(24) 2/26(26) 2/28(28) 2/30(30)

PN10

PN25

Power Motor dimensions

DPVCI

[kW]

F1 [mm] 445 466 488 509 555 576 598 620 642 693 715 758 827 870 913 956 999 1042 1085 1128

0,37 0,37 0,37 0,37 0,55 0,55 0,55 0,75 0,75 1,1 1,1 1,1 1,5 1,5 1,5 2,2 2,2 2,2 2,2 2,2

E1 [mm] 134 134 134 134 134 134 134 150 150 150 150 150 176 176 176 176 176 176 176 176

E2 [mm] 107 107 107 107 107 107 107 115 115 115 115 115 141 141 141 141 141 141 141 141

LB [mm] 219 219 219 219 243 243 243 234 234 264 264 264 280 280 280 280 280 280 280 280

F2 [mm] 226 247 269 290 312 333 355 386 408 429 451 494 547 590 633 676 719 762 805 848

F3 [mm] 315 315 315 315 339 339 339 340 340 370 370 370 396 396 396 396 396 396 396 396

F4 [mm] 130 151 173 194 216 237 259 280 302 323 345 388 431 474 517 560 603 646 689 732

Mass* [kg] 14 14 14 15 17 17 18 20 20 23 23 24 29 29 30 35 36 36 37 38

3.3

Hydraulic performance curve DPVCI 4 B - 50Hz - 2 pole

ID3448

[IM.gpm]

[US.gpm] 10

250 800 4/26 4,0 kW 4/24 4,0 kW

200 4/22 4,0 kW 600

4/20 3,0 kW

4/18 3,0 kW

150 Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

4/16 3,0 kW

4/14 2,2 kW

400 4/12 2,2 kW

100 4/11 2,2 kW 4/10 1,5 kW

[ft]

4/9 1,5 kW

[m] 4/8 1,5 kW 4/7 1,1 kW

200

4/6 1,1 kW

50 4/5 0,75 kW 4/4 0,55 kW 4/3 0,55 kW 4/2 0,37 kW

0 0

0.0 5 NPSHR

[m³/h]

0 2

3 [l/s]

0.5

1.0

1.5 10 [ft]

[m]

0 80 Eta

% 0

Leistungsbedarf 0.2 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0

0.2 [hp]

ȡ = 1000.0 kg/m³

[m³/h]

0.0 2

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 6: Performance curve DPVCI 4 B - 50Hz - 2 pole

7 20090372-D/0

20090373 D

3.4

DPVCI 4 B - 50Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 4/16(22) F3=442mm, F4=560mm. Table 9: General dimensions ID3436

Model

Seal pressure

Full stage

*including packing

4/2(2) 4/3(3) 4/4(4) 4/5(5) 4/6(6) 4/7(7) 4/8(8) 4/9(9) 4/10(10) 4/11(11) 4/12(12) 4/14(14) 4/16(16) 4/18(18) 4/20(20) 4/22(22) 4/24(24) 4/26(26) 4/26(28) 4/26(30)

Power Motor dimensions [kW]

PN10

PN25

0,37 0,55 0,55 0,75 1,1 1,1 1,5 1,5 1,5 2,2 2,2 2,2 3 3 3 4 4 4 4 4

E1 [mm] 134 134 134 150 150 150 176 176 176 176 176 176 195 195 195 223 223 223 223 223

E2 [mm] 107 107 107 115 115 115 141 141 141 141 141 141 145 145 145 167 167 167 167 167

LB [mm] 219 243 243 234 264 264 280 280 280 280 280 280 316 316 316 324 324 324 324 324

DPVCI F1 [mm] 445 490 512 534 586 607 655 676 698 719 741 784 873 916 959 1010 1053 1096 1139 1182

F2 [mm] 226 247 269 300 322 343 375 396 418 439 461 504 557 600 643 686 729 772 815 858

F3 [mm] 316 339 339 340 370 370 396 396 396 396 396 396 442 442 442 450 450 450 450 450

F4 [mm] 130 151 173 194 216 237 259 280 302 323 345 388 431 474 517 560 603 646 689 732

Mass* [kg] 14 16 16 19 21 22 26 26 26 30 30 31 43 43 44 54 55 72 74 74

3.5

Hydraulic performance curve DPVCI 6 B - 50Hz - 2 pole

ID3425

250

[US.gpm] 10

[IM.gpm]

6/26 5,5 kW

800 6/24 5,5 kW

6/22 5,5 kW

200

6/20 5,5 kW

600 6/18 4,0 kW 6/16 4,0 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

150 6/14 3,0 kW

400

6/12 3,0 kW 6/11 3,0 kW

100 6/10 2,2 kW [ft]

6/9 2,2 kW

[m]

6/8 2,2 kW 6/7 1,5 kW 6/6 1,5 kW

200

50 6/5 1,1 kW 6/4 1,1 kW 6/3 0,75 kW 6/2 0,37 kW

0 0 0.0 4 NPSHR

2 0.5

[m³/h] [l/s]

4 1.0

6 1.5

8 2.0

10 2.5 10 [ft]

[m]

0 80 Eta

0 Leistungsbedarf Power Input 0.2 Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0

0.3 [hp]

0 ȡ = 1000.0 kg/m³

[m³/h]

0.0 4

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 7: Performance curve DPVCI 6 B - 50Hz - 2 pole

10 20090374-E/0

20090374 E

3.6

DPVCI 6 B - 50Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 6/12(26) F3=442mm, F4=740mm. Table 10: General dimensions ID3436

Model

Seal pressure

Power Motor dimensions [kW]

*including packing

6/2(2) PN10 6/3(3) 6/4(4) 6/5(5) 6/6(6) 6/7(7) 6/8(8) 6/9(9) 6/10(10) 6/11(11) PN25 6/12(12) 6/14(14) 6/16(16) 6/18(18) 6/20(20) 6/22(22) 6/24(24) 6/26(26) 6/26(28) 6/26(30)

0,37 0,75 1,1 1,1 1,5 1,5 2,2 2,2 2,2 3 3 3 4 4 5.5 5.5 5.5 5.5 5.5 5.5

E1 [mm] 134 150 150 150 176 176 176 176 176 195 195 195 223 223 266 266 266 266 266 266

E2 LB [mm] [mm] 107 219 115 234 115 264 115 264 141 280 141 280 141 280 141 280 141 280 145 316 145 316 145 316 167 324 167 324 178 329 178 329 178 329 178 329 178 329 178 329

DPVCI F1 [mm] 455 505 560 585 636 661 686 711 736 807 832 882 940 990 1121 1171 1221 1271 1321 1371

F2 [mm] 236 271 296 321 356 381 406 431 456 491 516 566 616 666 792 842 892 942 992 1042

F3 [mm] 316 340 370 370 396 396 396 396 396 442 442 442 450 450 531 531 531 531 531 531

F4 [mm] 140 165 190 215 240 265 290 315 340 365 390 440 490 540 590 640 690 740 790 840

Mass* [kg] 14 18 21 21 25 26 29 29 30 41 42 42 52 53 88 89 90 91 91 92

3.7

Hydraulic performance curve DPVCI 10 B - 50Hz - 2 pole

ID3425

[IM.gpm]

250 800 10/21 7,5 kW

10/19 7,5 kW

200 10/17 7,5 kW

600 10/15 5,5 kW

150 10/13 5,5 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

10/11 4 kW

400

10/10 4 kW

100

10/9 4 kW 10/8 3 kW

[ft]

10/7 3 kW

[m]

10/6 2,2 kW

200

10/5 2,2 kW

50 10/4 1,5 kW 10/3 1,1 kW 10/2 0,75 kW 10/1 0,75 kW

0 0

[m³/h]

6 [l/s]

5 NPSHR

10 [ft]

[m]

0 80 Eta

0 Leistungsbedarf 0.4 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0

0.4 [hp]

0 ȡ = 1000.0 kg/m³

[m³/h]

0 4

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 8: Performance curve DPVCI 10 B - 50Hz- 2 pole

14 20101080-A/0

20101080 A

3.8

DPVCI 10 B - 50Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 10/8(13) F3=455mm, F4=445mm. Table 11: General dimensions ID3436

*including packing

Model

Seal pressure

Power Motor dimensions

DPVCI

Full stage

[kW]

10/1(2) PN10 10/2(2) 10/3(3) 10/4(4) 10/5(5) 10/6(6) 10/7(7) 10/8(8) 10/9(9) PN25 10/10(10) 10/11(11) 10/13(13) 10/15(15) 10/17(17) 10/19(19) 10/21(21)

0,75 0,75 1,1 1,5 2,2 2,2 3 3 4 4 4 5,5 5,5 7,5 7,5 7,5

F1 [mm] 497 497 554 606 633 686 732 758 792 819 845 984 1037 1138 1191 1244

E1 [mm] 150 150 150 176 176 176 195 195 223 223 223 266 266 266 266 266

E2 [mm] 115 115 115 141 141 141 145 145 167 167 167 178 178 178 178 178

LB [mm] 234 234 264 280 280 280 316 316 324 324 324 329 329 377 377 377

F2 [mm] 263 263 290 326 353 406 416 442 468 495 521 655 708 761 814 867

F3 [mm] 343 343 373 399 399 399 455 445 453 453 453 539 539 587 587 587

F4 [mm] 154 154 181 207 236 287 313 313 339 366 392 445 498 551 604 657

Mass* [kg] 17 17 20 32 36 37 47 48 58 58 59 93 94 127 129 130

3.9

Hydraulic performance curve DPVCI 15 C - 50Hz - 2 pole

ID3425

[US.gpm]

[IM.gpm]

100

15/17 18.5 kW

250 800 15/15 15 kW

200 15/13 15 kW 600 15/11 11 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

15/10 11 kW

150 15/9 11 kW 15/8 11 kW

400

15/7 7.5 kW

100

15/6 7.5 kW

[ft]

15/5 5.5 kW

[m] 15/4 4 kW

200

50 15/3 3 kW 15/2 2.2 kW 15/1 1.1 kW

0 0

[m³/h]

0 10

15 [l/s]

3 NPSHR

[ft]

[m]

80 Eta

% 0

1 Leistungsbedarf* Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0

1 [hp]

ȡ = 1000.0 kg/m³

[m³/h]

0 10

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 9: Performance curve DPVCI 15 C - 50Hz - 2 pole

20 20210121-A/0

20210121 A

3.10

DPVCI 15 C - 50Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 15/3(15) F3=445mm, F4=498mm. Table 12: General dimensions ID3436

*including packing

Model

Seal pressure

Power

Motor dimensions

DPVCI

Full stage

[kW]

15/1(2) PN10 15/2(2) 15/3(3) 15/4(4) 15/5(5) 15/6(6) 15/7(7) PN16 15/8(8) 15/9(9) 15/10(10) 15/11(11) 15/13(13) 15/15(15) PN25 15/17(17)

1,1 2,2 3 4 5,5 7,5 7,5 11 11 11 11 15 15 18,5

E1 [mm] 150 200 215 248 288 288 288 340 340 340 340 340 340 340

F1 [mm] F2 [mm] F3 [mm] 578 314 394 605 324 421 692 375 467 772 416 506 970 538 663 1011 579 663 1052 620 663 1194 661 764 1235 702 764 1276 743 764 1317 784 764 1399 866 764 1481 948 764 1563 1030 764

E2 [mm] 115 248 157 168 197 197 197 223 223 223 223 223 223 223

LB [mm] 264 281 317 356 432 432 432 533 533 533 533 533 533 533

F4 [mm] 184 184 225 266 307 348 389 430 471 512 553 635 717 799

Mass* [kg] 27 38 47 57 98 100 101 163 185 187 188 201 204 217

3.11

Hydraulic performance curve DPVCI 2 B - 60Hz -2 pole

ID3424

[US.gpm] 5

15 10

[IM.gpm]

250 2/22 3,0 kW 800 2/20 3,0 kW

2/18 2,2 kW

200 2/16 2,2 kW

600

2/14 2,2 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

150 2/12 1,5 kW 2/11 1,5 kW

400

2/10 1,5 kW 2/9 1,1 kW

100 2/8 1,1 kW

[ft]

2/7 1,1 kW

[m]

2/6 0,75 kW

200

2/5 0,75 kW

50 2/4 0,55 kW 2/3 0,37 kW 2/2 0,37 kW

0 0.0

0.5

0.0 10 NPSHR

[m³/h] 1.0 0.2

[l/s]

0 1.5

2.0

0.4

2.5 0.6

3.0 0.8

3.5

4.0

1.0

[m]

20 [ft]

80 Eta

% 0

Leistungsbedarf 0.14 Power Input [kW] Puiss. abs. 0.1 Potenza ass. Opgenomen vermogen Potencia nec. 0.04 ȡ = 1000.0 kg/m³

0.5

[m³/h] 1.0

1.5

2.0

2.5

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 10: Performance curve DPVCI 2 B - 60Hz - 2 pole

3.0

3.5

4.0 20090371-E/0

20090371 E

0.0

0.15 [hp] 0.10

3.12

DPVCI 2 B - 60Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 2/3(22) F3=315mm, F4=560mm. Table 13: General dimensions ID3436

Model

Seal pressure

Full stage

*including packing

2/2(2) 2/3(3) 2/4(4) 2/5(5) 2/6(6) 2/7(7) 2/8(8) 2/9(9) 2/10(10) 2/11(11) 2/12(12) 2/14(14) 2/16(16) 2/18(18) 2/20(20) 2/22(22) 2/22(24) 2/22(26) 2/22(28) 2/22(30)

PN10

PN25

Power Motor dimensions

DPVCI

[kW]

F1 [mm] 445 466 512 534 556 607 629 650 698 719 741 784 827 870 959 1002 1045 1088 1131 1174

0,37 0,37 0,55 0,75 0,75 1,1 1,1 1,1 1,5 1,5 1,5 2,2 2,2 2,2 3 3 3 3 3 3

E1 [mm] 134 134 134 150 150 150 150 150 176 176 176 176 176 176 195 195 195 195 195 195

E2 [mm] 107 107 107 115 115 115 115 115 141 141 141 141 141 141 145 145 145 145 145 145

LB [mm] 219 219 243 234 234 264 264 264 280 280 280 280 280 280 316 316 316 316 316 316

F2 [mm] 226 247 269 300 322 343 365 386 418 439 461 504 547 590 643 686 729 772 815 856

F3 [mm] 315 315 339 340 340 370 370 370 396 396 396 396 396 396 442 442 442 442 442 442

F4 [mm] 130 151 173 194 216 237 259 280 302 323 345 388 431 474 517 560 603 646 689 732

Mass* [kg] 14 14 16 18 19 22 22 22 26 27 27 31 32 32 44 45 45 45 46 64

3.13

Hydraulic performance curve DPVCI 4 B - 60Hz - 2 pole

ID3448

[US.gpm] 10

30 20

[IM.gpm]

250 800 4/18 5,5 kW

4/16 5,5 kW

200 4/14 4,0 kW

600

4/12 4,0 kW

150 Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

4/11 3,0 kW 4/10 3,0 kW

400

4/9 3,0 kW 4/8 2,2 kW

100 4/7 2,2 kW

[ft]

4/6 1,5 kW

[m] 4/5 1,5 kW

200 4/4 1,1 kW

50 4/3 0,75 kW 4/2 0,55 kW

0 0

0.0 8 NPSHR

[m³/h]

0 2

3 [l/s]

0.5

1.0

1.5

8 2.0 20 [ft]

[m]

0 80 Eta

% 0

Leistungsbedarf 0.3 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0

0.4 [hp]

ȡ = 1000.0 kg/m³

[m³/h]

0.0 2

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 11: Performance curve DPVCI 4 B - 60Hz - 2 pole

8 20090373-E/0

20090373 E

3.14

DPVCI 4 B - 60Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 4/7(16) F3=396mm, F4=431mm. Table 14: General dimensions ID3436

Model

Seal pressure

Full stage

*including packing

4/2(2) 4/3(3) 4/4(4) 4/5(5) 4/6(6) 4/7(7) 4/8(8) 4/9(9) 4/10(10) 4/11(11) 4/12(12) 4/14(14) 4/16(16) 4/18(18) 4/18(20) 4/18(22) 4/18(24) 4/18(26) 4/18(28) 4/18(30)

Power Motor dimensions [kW]

PN10

PN25

0,55 0,75 1,1 1,5 1,5 2,2 2,2 3 3 3 4 4 5,5 5,5 5,5 5,5 5,5 5,5 5,5 5,5

E1 [mm] 134 150 150 176 176 176 176 195 195 195 223 223 266 266 266 266 266 266 266 266

E2 [mm] 107 115 115 141 141 141 141 145 145 145 167 167 178 178 178 178 178 178 178 178

LB [mm] 243 234 243 264 280 280 280 316 316 316 324 324 329 329 329 329 329 329 329 329

DPVCI F1 [mm] 469 491 543 590 612 633 655 722 744 765 795 838 962 1005 1048 1091 1134 1177 1220 1263

F2 [mm] 226 257 279 310 332 353 375 406 428 449 471 514 633 676 719 762 805 848 891 934

F3 [mm] 339 340 370 396 396 396 396 442 442 442 450 450 531 531 531 531 531 531 531 531

F4 [mm] 130 151 173 194 216 237 259 280 302 323 345 388 431 474 517 560 603 646 689 732

Mass* [kg] 16 18 21 25 25 28 29 40 41 41 50 51 84 85 85 88 88 89 89 89

3.15

Hydraulic performance curve DPVCI 6 B - 60Hz - 2 pole

ID3425

[US.gpm] 10

[IM.gpm]

6/18 7,5 kW

250 800 6/16 7,5 kW

200 6/14 5,5 kW 600 6/12 5,5 kW 6/11 4,0 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

150 6/10 4,0 kW 6/9 4,0 kW

400 6/8 3,0 kW

100 6/7 3,0 kW [ft]

6/6 2,2 kW

[m] 6/5 2,2 kW 200

6/4 1,5 kW

6/3 1,1 kW 6/2 0,75 kW 6/1 0,37 kW

0 0

[m³/h]

6 [l/s]

12 3

6 NPSHR

[ft] 10

[m]

0 80 Eta

% 0

Leistungsbedarf 0.4 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0.0

0.4 [hp]

ȡ = 1000.0 kg/m³

[m³/h]

0 4

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 12: Performance curve DPVCI 6 B - 60Hz - 2 pole

12 20090375-F/0

20090375 F

3.16

DPVCI 6 B - 60Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 6/2(18) F3=340mm, F4=540mm. Table 15: General dimensions ID3436

Model

Seal pressure

Full stage

*including packing

6/2(2) 6/3(3) 6/4(4) 6/5(5) 6/6(6) 6/7(7) 6/8(8) 6/9(9) 6/10(10) 6/11(11) 6/12(12) 6/14(14) 6/16(16) 6/18(18) 6/18(20) 6/18(22) 6/18(24) 6/18(26) 6/18(28) 6/18(30)

Power Motor dimensions [kW]

PN10

PN25

0,75 1,1 1,5 2,2 2,2 3 3 4 4 4 5,5 5,5 7,5 7,5 7,5 7,5 7,5 7,5 7,5 7,5

E1 [mm] 150 150 176 176 176 195 195 223 223 223 266 266 266 266 266 266 266 266 266 266

E2 [mm] 115 115 141 141 141 145 145 167 167 167 178 178 178 178 178 178 178 178 178 178

LB [mm] 234 164 280 280 280 316 316 324 324 324 329 329 377 377 377 377 377 377 377 377

DPVCI F1 [mm] 480 535 586 611 6396 707 732 765 790 815 921 971 1069 1119 1169 1219 1269 1319 1369 1419

F2 [mm] 246 271 306 331 356 391 416 441 466 491 592 642 692 742 792 842 892 942 992 1042

F3 [mm] 340 370 396 396 396 442 442 450 450 450 531 531 579 579 579 579 579 579 579 579

F4 [mm] 140 165 190 215 240 265 290 315 340 365 390 440 490 540 590 640 690 740 790 840

Mass* [kg] 17 20 24 28 28 39 40 49 50 50 83 84 116 117 117 117 118 118 118 119

3.17

Hydraulic performance curve DPVCI 10 B - 60Hz - 2 pole

ID3425

0 250

[US.gpm] 20

60 40

[IM.gpm]

10/15 11 kW

800

10/13 11 kW

200 600

10/11 7,5 kW 10/10 7,5 kW

150 10/9 7,5 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

10/8 5,5 kW

400

10/7 5,5 kW

100 10/6 4 kW [ft] 10/5 4 kW

[m] 10/4 3 kW

200 50

10/3 2,2 kW 10/2 1,5 kW 10/1 0,75 kW

0 0

[m³/h]

0 4

6 [l/s]

16 4

5 NPSHR

[ft] 10

[m] 1 80

Eta

0 Leistungsbedarf 0.8 Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0

1 [hp]

0 ȡ = 1000.0 kg/m³

[m³/h]

0 4

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 13: Performance curve DPVCI 10 B - 60Hz- 2 pole

16 20101081-B/0

20101081 B

3.18

DPVCI 10 B - 60Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 10/1(6) F3=343mm, F4=287mm. Table 16: General dimensions ID3436

*including packing

Model

Seal pres- Power sure Full stage [kW]

Motor dimensions

DPVCI

10/1(2) PN10 10/2(2) 10/3(3) 10/4(4) 10/5(5) 10/6(6) 10/7(7) PN25 10/8(8) 10/9(9) 10/10(10) 10/11(11) 10/13(13) 10/15(15) 10/15(17) 10/15(19) 10/15(21)

E1 [mm] 150 176 176 195 223 223 266 266 266 266 266 315 315 315 315 315

F1 [mm] 497 553 580 652 687 740 826 852 926 953 979 1183 1236 1289 1342 1395

0,75 1,5 2,2 3 4 4 5,5 5,5 7,5 7,5 7,5 11 11 11 11 11

E2 [mm] 115 115 115 141 141 141 178 178 178 178 178 204 204 204 204 204

LB [mm] 234 280 280 316 324 324 329 329 377 377 377 498 498 498 498 498

F2 [mm] 263 273 300 336 363 416 497 523 549 576 602 685 738 791 844 897

F3 [mm] 343 399 399 445 453 453 539 539 587 587 587 738 738 738 738 738

F4 [mm] 154 154 181 207 234 287 287 313 339 366 392 445 498 551 604 657

Mass* [kg] 17 30 34 45 55 56 71 72 119 120 121 178 179 183 184 184

3.19

Hydraulic performance curve DPVCI 15 C - 60Hz - 2 pole

ID3425

0 0

[US.gpm] 40 20

[IM.gpm]

100

120

100

250 15/11 18.5 kW

800

15/10 18.5 kW

200

15/9 15 kW

600

15/8 15 kW

15/7 15 kW Förderhöhe TDH Hauteur Prevalenza Opvoerhoogte Altura

150 15/6 11 kW

400 15/5 11 kW

100 15/4 7.5 kW

[m]

[ft]

15/3 5.5 kkW

200 50 15/2 4 kW

15/1 2.2 kW

0 0

[m³/h]

0 10

15 [l/s]

25 6

6 NPSHR

[ft] 10

[m]

0 80 Eta

% 0

2 Leistungsbedarf* Power Input Puiss. abs. Potenza ass. [kW] Opgenomen vermogen Potencia nec. 0

2 [hp] 0

ȡ = 1000.0 kg/m³

[m³/h]

Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal

Figure 14: Performance curve DPVCI 15 C - 60Hz - 2 pole

25 20210122-A/0

20210122 A

3.20

DPVCI 15 C - 60Hz - 2 pole - DIN

To determine the correct length of the pump see both following explanation and table. length incl. motor length excl. motor Full stage pump F1 F2 Pump with empty stages F3 + F4 F3 + F4 -LB

The length F3 corresponds with the length of the applied motor power. F4 corresponds with the total number of stages. Example: 15/4(11) F3=587mm, F4=392mm. Table 17: General dimensions ID3436

*including packing

Model

Seal pressure

Power Motor dimensions

DPVCI

Full stage

[kW]

15/1(2) PN10 15/2(2) 15/3(3) 15/4(4) 15/5(5) PN16 15/6(6) 15/7(7) 15/8(8) PN25 15/9(9) 15/10(10) 15/11(11) 15/11(13) 15/11(15) 15/11(17)

2,2 4 5,5 7,5 11 11 15 15 15 18,5 18,5 18,5 18,5 18,5

F1 [mm] 605 690 888 929 1071 1112 1153 1194 1235 1276 1317 1399 1481 1563

E1 [mm] 200 248 288 288 340 340 340 340 340 340 340 340 340 340

E2 [mm] 148 168 197 197 223 223 223 223 223 223 223 223 223 223

LB [mm] 281 356 432 432 533 533 533 533 533 533 533 533 533 533

F2 [mm] 324 334 456 497 538 579 620 661 702 743 784 866 948 1030

F3 [mm] 421 506 663 663 764 764 764 764 764 764 764 764 764 764

F4 [mm] 184 184 225 266 307 348 389 430 471 512 553 635 717 799

Mass* [kg] 37 53 85 86 157 158 170 170 193 204 204 205 206 207

Seals

4.1

Mechanical seal option specifications

Seal code

Material shaft seal

Material pump elastomer

Temperature range shaft seal[oC]

Max. pressure [bar]

Cartridge

MG-G60

B Q1 E GG

Ca / SiC / EPDM *

EPDM

-20 - 100



MG-G60

B Q1 V GG

Ca / SiC / FPM

FPM

-20 - 120



RMG-G606

Q1 B E GG

SiC / Ca / EPDM

EPDM WRAS / ACS

-20 - 100



RMG-G606

Q1 B V GG

SiC / Ca / FPM

FPM

-20 - 120 (140)

25 (16)



RMG-G606

U3 U3 X4 GG

TuC / TuC / HNBR

HNBR

-20 - 120 (140)

25 (16)



RMG-G606

U3 U3 V GG

TuC / TuC / FPM

FPM

-20 - 120



RMG-G606

U3 B E GG

TuC / Ca / EPDM

EPDM 559236

-20 - 120 (140)

25 (16)



RMG-G606

Q1 B E GG

SiC / Ca / EPDM

EPDM

-20 - 100



MG-G606

Q1 Q1 V GG

SiC / SiC /FPM

FPM

-20 - 120



MG-G606

Q1 Q1 X4 GG

SiC / SiC/ HNBR

HNBR

-20 - 120



MG-G606

Q1 Q1 E GG

SiC / SiC / EPDM

EPDM

-20 - 100



Shaft seal Type

Material mechanical seal

Table 18: Seal code, dimensions according EN24960

*default seal type, code depends on max pump pressure

Motors and motor options

5.1

General

The standard DPmotors are produced conform the latest technical design, and comply with the international standards and EU directives regarding safety measures. The motors can be specified as: Standard IE3 >= 0,75kW T.E.F.C. (totally enclosed fan cooled) Squirrel cage. • AC induction motor. • Protection IP55. • Insulation class F. • Temperature rise class B. • Duty class S3 (50% or S4 (40%), maximum starts per hour, see motor tables). • Noise levels conform IEC 60034-9. • >= 3,0 kW default 3 x PTC.

• •

The motors come in 2 different configurations depending on power rate. Up to 4kW a V18 mounting type is used. For power 5,5kW and up a flanged motor type V1 is default. Mounting in acc. with IEC60034-7 and dimensions in acc. with IEC 60072-1

5.2 • • • • •

Options Standard motors as per above, in single phase (1x230V)upto and including 2,2kW. Provided with 10 pole industrial connector “Harting stecker” HAN 10, mounted in stead of the motor connection box, <= 7,5kW. Provided with Rain cover on top of the fan hood. For motors < 3kW provided with 3 x PTC and/or anti condensation heater (1x230V). Motors from other manufacturers like Siemens and VEM. 33

5.3

Standard motor data 2P 50Hz

Rated power output [kW]

Rated current [A]

Starting current Ia/In

Cos Phi

Tolerance rated voltage

Rated speed [rpm]

Motor efficiency [%]

Sound pressure [dB(A)]

Cable gland

Max. starts per hour (S3 50% or S4 40%)

3700000003

0.37 1x230

2.6

3.7

0.92

10%

2750

1xM18x1.5

3700000005

0.55 1x230

3,69

3.9

0.92

10%

2760

1xM18x1.5

Rated Voltage [V]

Article number

Table 19: Motor data 1 and 3 phase, 2p 50Hz

3700000007

0.75 1x230

3.9

0.95

10%

2780

1xM20x1.5

3700000011

1.1

1x230

6.68

4.3

0.95

10%

2790

1xM20x1.5

3700000015

1.5

1x230

8.99

4.8

0.95

10%

2800

1xM20x1.5

3700000022

2.2

1x230

13.04

4.8

0.76

10%

2800

1xM20x1.5

3710021003

0.37 230/400

1.6/0.95

4.5

0.8

10%

2865

1xM20x1.5

300

3710021005

0.55 230/400

2.1/1.2

5.3

0.76

10%

2880

1xM20x1.5

300

3710051007

0.75 230/400

3.1/1.8

6.6

0.82

10%

2880

80.7

1xM20x1.5

300

3710051011

1.1

4.0/2.3

6.9

0.81

10%

2880

1xM20x1.5

300

230/400

3716051015

1.5

230/400

5.3/3.0

7.3

0.86

10%

2925

84.2

1xM20x1.5

300

3716051022

2.2

230/400

7.5/4.3

0.85

10%

2910

85.9

1xM20x1.5

300

3716151030

230/400

10.2/5.8

9.3

0.85

10%

2920

87.1

2xM20x1.5

300

3716152030

400/690

5.8/3.3

9.3

0.89

10%

2920

87.1

2xM20x1.5

300

3716151040

230/400

12.8/7.4

8.4

0.89

10%

2930

88.1

2xM20x1.5

300

3716152040

400/690

7.4/4.3

8.4

0.89

10%

2930

88.1

2xM20x1.5

300

3716151055

5.5

230/400

17.3/10

8.8

0.89

10%

2940

89.2

2xM25x1.5

300

3716152055

5.5

400/690

10/5.8

8.8

0.89

10%

2940

89.2

2xM25x1.5

300

3716151075

7.5

230/400

23/13.3

9.2

0.89

10%

2940

90.1

2xM25x1.5

300

3716152075

7.5

400/690

13.3/7.7

9.2

0.9

10%

2940

90.1

2xM25x1.5

300

3710151110

230/400

33.4/19.3

7.3

0.9

10%

2945

91.2

2xM32x1.5

300

3710152110

400/690

19.3/11.2

7.3

0.85

10%

2945

91.2

2xM32x1.5

300

3710151150

230/400

49.0/28.2

7.6

0.85

10%

2945

90.3

2xM32x1.5

200

3710152150

400/690

28.2/16.3

7.6

0.9

10%

2945

90.3

2xM32x1.5

200

3710151185

18.5 230/400

55.6/32.1

7.7

0.9

10%

2940

92.4

2xM32x1.5

200

3710152185

18.5 400/690

32.1/18.6

7.7

0.88

10%

2940

92.4

2xM32x1.5

200

3710151220

230/400

68.7/39.5

7.5

0.88

10%

2945

91.3

2xM32x1.5

200

3710152220

400/690

39.5/22.9

7.5

0.9

10%

2945

91.3

2xM32x1.5

200

5.4

Standard motor data 2P 60Hz

Rated Voltage [V]

Rated current [A]

Starting current Ia/In

Cos Phi

Tolerance rated voltage

Rated speed [rpm]

Motor efficiency [%]

Sound pressure [dB(A)]

0.37

230/400

1.6/0.95

4.5

0.84

+20%.-10%

3430

76,0

60 1xM20x1.5

300

3710021005

0.55

230/400

2.1/1.2

5.3

0.81

+20%.-10%

3460

82,0

60 1xM20x1.5

300

Max. starts per hour (S3 50% or S4 40%)

Rated power output [kW]

3710021003

Cable gland

Article number

Table 20: Motor data 3 phase, 2p 60Hz

3710051007

0.75

230/400

2.8/1.6

6.2

0.88

+25%/-10%

3460

80.7

58 1xM20x1.5

300

3710051011

1.1

230/400

4.2/2.4

6.8

0.9

+25%/-10%

3440

82.5

60 1xM20x1.5

300

3716051015

1.5

230/400

5.0/2.9

6.9

0.9

+25%.-10%

3510

85.5

58 1xM20x1.5

300

3716051022

2.2

230/400

7.1/4.1

7.7

0.9

+25%/-10%

3490

86.5

58 1xM20x1.5

300

3716151030

230/400

9.6/5.5

7.6

0.91

+25%/-10%

3495

87.5

61 2xM20x1.5

300

3716152030

400/690

5.6/3.2

7.6

0.91

+25%.-10%

3495

87.5

61 2xM20x1.5

300

3716151040

230/400

12.5/7.2

0.92

+25%/-10%

3515

88.5

62 2xM20x1.5

300

3716152040

400/690

7.2/4.2

0.92

+25%/-10%

3515

88.5

62 2xM20x1.5

300

3716151055

5.5

230/400

17/9.8

7.8

0.93

+25%.-10%

3525

88.5

67 2xM25x1.5

300

3716152055

5.5

400/690

9.8/5.6

7.8

0.93

+25%/-10%

3525

88.5

67 2xM25x1.5

300

3716151075

7.5

230/400

22.5/13.0

0.92

+25%/-10%

3525

89.5

67 2xM25x1.5

300

3716152075

7.5

400/690

13.0/7.5

0.92

+25%/-10%

3525

89.5

67 2xM25x1.5

300

3710151110

230/400

32.9/19.0

6.3

0.92

+25%/-10%

3530

91.0

73 2xM32x1.5

300

3710152110

400/690

19.0/11.0

6.3

0.92

+25%.-10%

3530

91.0

73 2xM32x1.5

300

3710151150

230/400

44.3/25.6

6.5

0.92

+25%/-10%

3530

92.2

73 2xM32x1.5

200

3710152150

400/690

25.6/14.8

6.5

0.92

+25%/-10%

3530

92.2

73 2xM32x1.5

200

3710151185

18.5

230/400

54.6/31.5

6.7

0.91

+25%.-10%

3525

92.2

73 2xM32x1.5

200

3710152185

18.5

400/690

31.5/18.3

6.7

0.91

+25%/-10%

3525

92.2

73 2xM32x1.5

200

3710151220

230/400

65.5/37.8

7.8

0.91

+25%/-10%

3550

92.2

79 2xM32x1.5

200

3710152220

400/690

37.8/21.9

7.8

0.91

+25%/-10%

3550

92.2

79 2xM32x1.5

200

Materials

6.1

Parts overview

6.1.1

Sectional drawing DPVCI 2-10 B

ID3414

800

554.02

341

901.02

920.01

681

914.01

914.05

862 565 560

903.01

01-75

411.04

433.02

400.02 108.03

932 525.05

108.03 905 108.09 525.08 108.05 108.01 230

525.11 210

108.01

525.03

412.03

525.01

108.02

529

525.04 930 108.04 106

920.02 914.07

143 554.01

Figure 15: Sectional drawing DPVCI 2-10 B

20120197

920.03

6.1.2

Part list Part. no. 106 108.01/.02/.03/.04/.05/.09 143 210 230 341 400.02 411.04 412.03 433.02 525.01/.03/.04/.05/.08 529 Part of 108 554.01/.02 681 862 901.02 903.01 905 914.01/.05/.07 920.01/.03 930.02 932

6.1.3 Material JL 1040 JS1030 1.4057 1.4301 1.4401 1.4571 1.

part description Suction casing Stage casing Suction strainer Shaft Impeller Motor stool Gasket Joint ring O-ring Shaft seal Spacer sleeve Bearing sleeve Bearing Washer Coupling guard Coupling from 5.5 kW Coupling up to 4 kW Hexagon head bolt Screw plug Tie bolt Hexagon socket head cap screw Nut Safety device Circlip

material code JL1040 1.4301 1.4301 1.4057 1.4301 JL1040

see seal table 18 see seal table 18 1.4301 Tungsten Carbide Aluminium Oxide 1.4308 JS1030 Aluminium

Wetted part X X X X X X X X X X X X X X X

1.4057

1.4301 1.4404 1.4571

X X X

Materials conversion Description Cast iron Cast iron Chromium-nickel steel Chromium-nickel steel Chromium-nickel-molybdenum steel Chromium-nickel-molybdenum steel

Code and material nr. GJL-250 GJS-400 X17CrNi16-2--QT800 X5CrNi 18-10 X2CrNiMo 17-12-2 X6CrNiMoTi 17-12-2

Standard EN 1561 EN 1563 EN 10088-3 EN 10088 EN 10088 EN 10088

ASTM / AISI1 A48:40B A276:431 A276:304 A276:316L A276:316Ti

Note: The indication of the material designations to ASTM / AISI is not binding

6.1.4

Sectional drawing DPVCI 15 C

ID3414

800

554.02

341

901.02 681

920.01

914.05

914.01 862 565

903.01

560

411.04

01-75 433.02

932 400.02

525.05

108.03 525.08 525.03 905 108.03 108.09

525.08 525.20 529 525.21

525.08 108.05

525.03

108.01 230 412.03

210

108.02

525.03

525.01 529

106

930

143 554.01

920.02

920.03

914.07

Figure 16: Sectional drawing DPVCI 15 C

20210411

108.05

6.1.5

Part list Part. no. 01-75 106 108.01/.02/.03/.05/.09 143 210 230 341 400.02 411.04 412.03 433.02 525.01/.03/.05/.08/.20/.21 529 Part of 108 554.01/.02 560 565 681 800 862 901.02 903.01 905 914.01/.05/.07 920.01/.02/.03 930 932

6.1.6 Material JL 1040 JS1030 1.4057 1.4301 1.4401 1.4571 1.

part description Type plate Suction casing Stage casing Suction strainer Shaft Impeller Motor stool Gasket Joint ring O-ring Shaft seal Spacer sleeve Bearing sleeve Bearing Washer Pin Rivet Coupling guard Motor Coupling from 5.5 kW Coupling up to 4 kW Hexagon bolt Screw plug Tie bolt Hexagon socket head cap screw Nut Safety device Circlip

material code

Wetted part

JL1040 1.4301 1.4301 1.4057 1.4301 JL1040

X X X X X X X X X X X X X X

see seal table 18 see seal table 18 1.4301 Tungsten Carbide Aluminium Oxide 1.4305 1.4301 1.4308 JS1030 Aluminum

1.4057

X X

1.4301 1.4404 1.4571

X X X

Materials conversion Description Cast iron Cast iron Chromium-nickel steel Chromium-nickel steel Chromium-nickel-molybdenum steel Chromium-nickel-molybdenum steel

Code and material nr. GJL-250 GJS-400 X17CrNi16-2--QT800 X5CrNi 18-10 X2CrNiMo 17-12-2 X6CrNiMoTi 17-12-2

Standard EN 1561 EN 1563 EN 10088-3 EN 10088 EN 10088 EN 10088

ASTM / AISI1 A48:40B A276:431 A276:304 A276:316L A276:316Ti

Note: The indication of the material designations to ASTM / AISI is not binding

Medium handled

7.1

Medium handled

Media description

Media group

Chemical formula

Cons. PH Temp max. max. max. [%] {C]

Material shaft seal

SiC TuC SiC SiC SiC SiC SiC SiC SiC TuC SiC SiC SiC SiC SiC SiC SiC SiC SiC SiC SiC SiC SiC TuC

stator elastomer Ca EPDM TuC HNBR Ca EPDM Ca EPDM Ca EPDM Ca EPDM Ca EPDM Ca EPDM Ca EPDM TuC FPM Ca FPM Ca EPDM Ca FPM Ca FPM Ca FPM Ca FPM Ca EPDM Ca FPM Ca FPM Ca FPM Ca EPDM Ca FPM Ca EPDM TuC HNBR

Material pump elastomer EPDM HNBR EPDM EPDM EPDM EPDM EPDM EPDM EPDM FPM FPM EPDM FPM FPM FPM FPM EPDM FPM FPM FPM EPDM FPM EPDM HNBR

Ca Ca Ca Ca Ca

EPDM EPDM EPDM FPM EPDM

rotor (CH3)2CO

Acetone Alcaline (bottle rinse) Alcohol (Ethanol) Ammonia Antifreeze (glycol base, salt-free) Butyl alcohol (butanol) Diethylene glycol (salt-free) Ethanol (alcohol) Ethylene glycol (salt-free) Ferric-II-sulphate Fuel oil (light) Glycerin (glycerol) Kerosene Linseed oil Linseed oil + 3% sulphur acid Malic acid Methyl glycol (propylene glycol) Olive oil Peanut oil Petroleum Potassium chloride Rape-seed oil Sodium carbonate Sodium hydroxide (soda lye) Sodium nitrate (non acidic) Sodium phosphate Sodium sulphate (non acicdic) Soybean oil Spirits

Ketone Rinsing Hydrocarbon Strong base Alcohol Hydrocarbon Alcohol Hydrocarbon Alcohol Salt Hydrocarbon Alcohol Hydrocarbon Vegetable oil Vegetable oil Acid Alcohol Vegetable oil Vegetable oil Hydrocarbon Salt Vegetable oil Salt Salt

Tannic acid Water, untreated / suspended solids <20 ppm Water, boiler feed water (conform. Vd TÜV 1466 Water, fire fighting Water, heating (conform Vd TÜV 1466) Water, (conform VDI 2035) Water, oil water mixture

Acid Water

H2O + sucrose + alcohol C76H52O46 H2O + ...

Water

C2H5OH NH3

2 100

< 9.5 40 60

110

100 100 100 5 40 100 100 100

100 60 100 80 80 80 80 60 60

100

100 100

90 80

6 5

100 60 40

5 100 40

60 100 60

SiC SiC SiC SiC SiC

20 100

80 60

SiC TuC

Ca Ca

FPM FPM EPDM EPDM

H2O + ...

100

120

TuC

EPDM EPDM E425

Water Water

H2O + ... H2O + ...

100 100

60 120

TuC SiC

TuC Ca

HNBR HNBR EPDM EPDM

Water

H2O + ...

100

TuC

EPDM EPDM

SiC

FPM

Salt Salt Salt Vegetable oil Alcohol

Water

CH3(CH2)3OH C4H10O3 C2H5OH (CH2OH)2 FeCl3 C3H8O3

C4H2O3 C3H6(OH)2

Hydrocarbon KCl mixture Na2CO3 NaOH NaNO3 Na3PO4 Na2SO4

FPM

dp pumps P.O. Box 28 2400 AA Alphen aan den Rijn The Netherlands t +31 172 48 83 88 dp@dp-pumps.com www.dp-pumps.com 05/2021 Original instructions

97004475 D Subject to modifications. Digital alteration, publication or distribution of the content of this document without prior notice is strictly prohibited. Permission for use, copying and distribution of this document as published by DP-Pumps is granted on the condition that no part of the document is used for information or commercial purposes outside of the DP-Pumps organisation or one of its recognised dealerships.