EnergypluB by Navid Anari

Product Manual

509 B â&#x20AC;&#x201C; 06/04 C Date: April 2006 Supersedes: 509 B 04/11 B

% %

!( %* +

! "" #$ ! "& '#$ ! ")& #$ ,%-

McQuay is participating in the Eurovent Certification Programme. Product are as listed in the Eurovent Directory of Certified Products and on the web site www.eurovent-certification.com

509 B – 06/04 C – pag. 2/40

Air cooled screw chillers McQuay Energyplus B McQuay International introduces Energyplus B air cooled screw chillers equipped with single screw compressors in cooling capacity range 363 kW – 624 kW. McQuay air cooled Energyplus B are equipped with McQuay Frame 3200 single screw compressors. They are manufactured by McQuay to satisfy the requirements of the consultants and the end user. McQuay Energyplus B units are designed to minimise energy costs while maximising the refrigeration capacities. Once again McQuay has developed a line of chillers unsurpassed in performance and quality that will meet the most stringent requirements of comfort cooling, ice storage and process applications. McQuay’s chiller design experience, combined with outstanding features makes the Energyplus B chiller unmatched in the industry.

Lower noise – higher flexibility The McQuay original compressor design with a single screw and twin rotors allows a constant gas flow. This compression process completely eliminates gas pulsations. The twin gas compressor discharge chambers are designed to act as attenuators, based on the harmonic wave principle with destructive interference, thus always resulting almost equal to zero. The extremely low noise compressor performance allows the use of Energyplus B chiller for all applications. The reduced level of vibrations produced from the Energyplus B chillers offers a surprisingly quiet operation eliminating the noise transmission through the structure and the chilled water piping system.

Code requirements All Energyplus B units are designed and manufactured in accordance with applicable selections of the following which are equivalent to American Air-conditioning industry applicable codes: Rating of chillers: EN 12055. Construction of pressure vessel: TUV Standards (on request). Electrical codes: IEC 204-1 CEI 44-5 Elect. & Safety Codes Safety Codes: CEI-EN 60204–1 Codes. Manufacturing Quality Stds: ISO 9001:2000.

Infinitely variable capacity control Cooling capacity control is infinitely variable by means of a capacity slide controlled by microprocessor system. Each unit has infinitely variable capacity control from 100% to 12.5%. This modulation allows the compressor capacity to exactly match the building cooling load. The result is a decrease in chiller energy costs, particularly at the part-load conditions at which the chiller operates most of the time. Additionally, in some case there should be the possibility to avoid inertial tank in the water circuit.

11 different lines Energyplus B 3200 line is available with two different efficiencies in order to satisfy every kind of requirements. Acoustic flexibility up to 65 dBA thanks to different noise level versions: •

SE Standard Efficiency ST

Standard noise – 79,0 ÷ 80,0 dBA

Sound proof cabinet on compressors – 77,0 ÷ 78,0 dBA

Low noise – 75,5 ÷ 76,0 dBA

Extra low noise – 71,5 ÷ 72,0 dBA

XXN Super quiet – 65,0 dBA •

XE High Efficiency with high COP ST

Standard noise – 79,0 ÷ 80,0 dBA

Sound proof cabinet on compressors – 77,0 ÷ 78,0 dBA

Low noise – 75,5 ÷ 76,0 dBA

Extra low noise – 71,5 ÷ 72,0 dBA

509B – 06/04 C– pag. 3/40

HA High Ambient Applications (suitable for all high ambient application) ST

Standard noise – 79,0 ÷ 80,0 dBA

Sound proof cabinet on compressors – 77,0 ÷ 78,0 dBA

Noise version description CN - The compressors are fitted inside a cabinet which is sound insulated with highly absorbent acoustic material. LN – Condenser fans rotating at 700 rpm. No sound proof cabinet. Discharge flexible pipes. XN – Version including sound proof cabinet, fans having 700 rpm and discharge flexible pipes. XXN – Version including sound proof cabinet, fans having 500 rpm and discharge flexible pipes. Some sizes are equipped with oversized condensing section.

Unmatched serviceability Field serviceability has not been sacrificed. Inspection covers allows visual inspection of the main screw and gaterotors.

Outstanding reliability features Full factory testing of all the units ensures a trouble free start-up. Extensive test makes certain that each safety and operating control is properly adjusted, and operates correctly.

General characteristics Cabinet and structure The cabinet of Energyplus B units is made of galvanized steel sheet and painted to provide a high resistance to corrosion. The unit base frame has holes to lift the unit with ropes for an easy installation. The weight is uniformly distribuited along the profiles of the base and this facilitates the arrangement of the unit.

Screw compressors with integrated oil separator

The StargateTM single-screw compressor (Frame 3200) has a well balanced compression mechanism which cancels the screw rotor load in both the radial and axial directions. Inherent to the basic single-screw compressor design is the virtually load-free operation, that gives main bearing design life of 3-4 times greater than twin-screws, and eliminates expensive and complicated thrust balancing schemes. The two exactly opposed gaterotors create two exactly opposed compression cycles. Compression is made at the lower and upper parts of the screw rotor at the same time, thus cancelling the radial loads. Moreover both ends of the screw rotor are subjected to suction pressure only, which cancels the axial loads and eliminates the huge thrust loads inherent in twin-screw compressors. Compressors are provided with an integrated high efficiency oil separator to maximise oil separation. Compressors have an infinitely variable capacity control down to 25% of its total capacity. This control is made by means of capacity slides controlled by microprocessors. Standard start is star-delta type; Soft start type is available (as option) in order to have lower inrush current.

Ecological HFC 134a refrigerant

McQuay has designed and optimized StargateTM compressors to operate with HFC 134a, ecological refrigerant with zero ODP (Ozone Depletion Potential) and very low GWP (Global Warming Potential) that means low TEWI (Total Equivalent Warming Impact).

Evaporator The units is supplied with optimised counter-flow evaporator single refrigerant pass. It is direct expansion with refrigerant inside the tubes and water outside (shell side) with carbon steel tube sheets, with straight copper tubes that are spirally wound internally for higher efficiencies, expanded on the tube plates. The external shell, is linked with an electrical heater to prevent freezing down to -28 °C ambient temperature, commanded by a thermostat and is covered with a closed cell insulation material. Each evaporator have 2 refrigerant circuits one for each compressor. Each evaporator is manufactured in accordance to PED approval.

509 B – 06/04 C – pag. 4/40

Condenser coils The Energyplus B units are constructed with internally enhanced seamless copper tubes arranged in a staggered row pattern and mechanically expanded into McQuay lanced and rippled aluminium condenser fins with full fin collars. An integral subcooler circuit provides sub-cooling to effectively eliminate liquid flashing and increases in cooling capacity without increasing the power input.

Condenser coil fans The condenser fans are helical type with wing-profile blades to achieve a better performance. The direct coupling with the electrical motor eliminates any problems with regard to the application of transmission devices reducing vibrations caused by the functioning. The three-phase type motors are supplied as standard with IP54 protection (Insulation class F); they are protected against overloading and short circuits by circuit breakers located inside the electrical control panel. With this chiller line (McPower with HFC 407C ) McQuay International starts to use a different fan shape (see image on the right). The fans, with their blades, are installed immediately at the top of the condenser coils in a circular metal baseframe with metal grill. This allows noise reduction on the top side of the chiller and a better performance of the highest condenser tube rows for a consequent higher air velocity. The chiller height doesn’t change thanks to an improved condenser coil design.

Expansion device Energyplus B is equiped with a thermostatic expansion valve. Electronic expansion device (EEXV) will be available as option.

Electrical control panel Power and control are located into two sections of the main panel that is manufactured to insure protection for all weather conditions. The power panel is fitted with an interlocked door main isolator to prevent access while power supply is on. Electrical panel is IP54. Power section includes - The power section includes contactors, all compressors fuses, fans circuit breaker (magneto-thermal), and control circuit transformer. Additional space is provided for an easy installation of the various optional accessories provided to enhance the Energyplus B units capabilities.

Intelligent Compressor Start Mode Control software includes an intelligent compressor start mode that is unloading the first compressor to 75% during the start of compressor n° 2, in order to reduce inrush current.

Certifications All the Energyplus B units are CE marked (89/392). McQuay Italia obtained ISO 9001:2000 certification.

509B – 06/04 C– pag. 5/40

Water content in cooling circuits The cooled water distribution circuits should have minimum water content to avoid excessive compressors start and stop. In fact, each time the compressor starts up, an excessive quantity of oil goes from the compressor sump and simultaneously there is a rise in the temperature of the compressor motor’s stator due to the inrush current during the start-up. To prevent damage to the compressors, McQuay has envisaged the application of a device to limit frequent stops and restarts. During the span of one hour there will be no more than 6 starts of the compressor. The plant side should therefore ensure that the overall water content allows a more constant functioning of the unit and consequently greater environmental comfort. The minimum water content per unit should be calculated with a certain approximation using this simplified formula: (1)

Q = 35,83 X

P (kW) ∆T(°C)

where: Q = minimum water content per unit expressed in litres P = minimum cooling capacity of the unit expressed in kW ∆T = evaporator entering / leaving water temperature difference expressed in °C For more accurate determination of quantity of water, it is advisable to contact the designer of the plant.

MicroTech II C Plus controller MicroTech II C Plus controller is installed as standard on all the units; it can be used to modify unit set points and check control parameters. A display illustrates the machine' s operating status, programable values and setpoints e.g. temperatures, and pressures of fluids (water, refrigerant and air). Device controls maximise the McQuay chillers energy efficiency and reliability characteristics. It uses sophisticated software with predictive logic to select the most energy efficient combination of compressor, EEXV and condenser fan to keep stable operating conditions and maximise energy efficiency. The compressors are automatically rotated to ensure equal operating hours. MicroTech II protects critical components in response to external signals from its system sensors measuring: motor temperatures, refrigerant gas and oil pressures, correct phase sequence and evaporator.

Control section - main features: •

Management of the compressor capacity slide and fans modulation according to the distributed multiprocessor logic system

•

Chillers enabled to work in partial failure condition thanks to the distributed multiprocessor logic system

•

Full routine operation at condition of: High ambient temperature value High thermal load High evaporator entering water temperature (start-up)

•

Display of evaporator entering/leaving water temperature

•

Display of condensing-evaporating temperature and pressure, suction and discharge superheat for each circuit

•

Leaving water cooled temperature regulation. Temperature tolerance=0,1°C

•

Compressors and evaporator/condenser pumps hours counter

•

Display of Status Safety Devices

•

Start up numbers and compressors working hours equalization

•

Excellent management of compressors load

•

Fans management according to condensing pressure

•

Automatic re-start in case of power supply interruption (adjustable)

•

Soft Load

•

Return Reset

•

AOT Reset (optional)

•

Setpoint Reset (optional)

509 B – 06/04 C – pag. 6/40

•

Demand limit or Current limit (optional)

•

Speedtrol control (optional)

Safety for each refrigerant circuit High pressure (pressure switch) Low pressure (pressure switch) Oil differential pressure switch Compressor thermal (optional) Condensation fan Magneto-thermal High Discharge Temperature on the compressor Phase Monitor Star / Delta Transition Failed Low Delta Pressure between Suction and Discharge Low pressure ratio High oil pressure drop Low oil pressure

System security Phase monitor Freeze protection

Regulation type Proportional + integral + derivative regulation on the leaving water evaporator output probe.

Condensation The condensation can be carried out according to temperature or pressure. The fans can be managed according to ON/OFF mode or with a 0/10 V modulating signal or both (SPEEDTROL).

MicroTech II C Plus terminal The MicroTech II C Plus terminal has following features: •

4-lines by 20-character liquid crystal display back lighting

•

Removable and remote key-pad

•

Key-pad consisting of 15 keys “ clear language display ”

•

Memory to protect the data

•

General faults alarm relays

•

4-level password access to modify the setting

•

Service report displaying all running hours and general conditions

•

Alarm history memory to allow an easy fault analysis

PlantVisorTM: Solution for tele-maintenance and supervisory MicroTech II C Plus can be monitored locally or via modem or GSM by PlantVisor

supervision program.

PlantVisorTM is compatible with Windows NT, 2000, XP. It is based on 16 bit WEB technology. It allows the followings functions. • Unit status monitoring. •

Circuits status monitoring.

•

Set-points modification.

•

Alarms display.

509B – 06/04 C– pag. 7/40

MicroTech II C Plus remote control

MicroTech II C Plus is able to communicate to BMS (Building Management System) if the protocol is one of the following. • CAREL. •

Modbus.

•

LonWorks.

BacNet point to point.

Standard Accessories (furnished on basic unit) Star Delta Compressors starter – For low inrush current and reduced starting torque. Thermal overload relays for fans – Safety devices against fan motor overloading. Phase monitor – The phase monitor controls that phases sequence is correct and controls phase loss. Evaporator electric heater – Electric heater controlled by a thermostat to protect the evaporator from freezing down to -28°C ambient temperature. Evaporator connection water side Victaulic – Hydraulic joint with gasket for an easy and quick water connection. General fault relay – Contactor for the alarm warning. Alarm from external device – Microprocessor is able to receive an alarm signal from an external device (pump etc…). User can decide if this alarm signal will stop or not the unit. Double set point version – Dual leaving glycol mixture temperature setpoints. The lower setpoint can go down to -8°C. Suction line shut off valve – Suction shut-off valve installed on the suction port of the compressor to facilitate maintenance operation.

Options (on request) Total heat recovery – Realized with shell and tube heat exchangers to produce hot water up to 55°C. The heat exchangers are mounted on the refrigerant circuits parallel to the condenser coils to remove all the condensation heat. With this option the length of units equipped with 6 and 8 fans must be increased of 1250mm. For units equipped with 10 fans the length remains unchanged. Partial heat recovery – Produced with plate to plate heat exchangers installed between the compressor discharge and the condenser coil. These allow hot water to be produced up to a maximum temperature of 55°C. Compressor thermal overload relays – Safety devices against compressor motor overloading in addition to the normal protection envisaged by the electrical windings. Ammeter and voltmeter – Digital meters of unit drawn amperes and voltage values, installed on the electrical control panel. Absorbed Current Limit / Display – This options allows to monitor the chiller absorbed current with possibility to set a limit value. This option excludes the Demand Limit. Fan speed control device – This device allows the continuous variation of the fan speed, modifying the air flow according to the external temperature conditions. It allows the unit working with air temperature down to –10°C. Speedtrol – Continous fan speed modulation on the first fan of each circuit. It allows the unit working with air temperature down to -18 °C. Fan Silent Mode – The microprocessor clock switches the fan at low speed according to the client setting (i.e. Night & Day), providing that the ambient temperature/condensing pressure is allowing the speed change. It allows a perfect condensing control down to –10°C. 100÷250 Pa lift fans – For all the applications where a higher fans lift is required (not available for LN, XN and XXN version).(Fan speed controller not available with this option). Condenser power factor correction – Installed on the electrical control panel to ensure it conforms to the plant rules. (McQuay advices maximum 0,9). Condenser coil guards – Metal protection guards fixed on all the external surface of the condenser coils.

509 B – 06/04 C – pag. 8/40

Evaporator area guards – Metal protection guards around evaporator area. Cu-Cu condensing coils – To give better protection against corrosion by aggressive environments. Cu-Cu-Sn condensing coils – To give better protection against corrosion in aggressive environments and by salty air. Alucoat condensing coils – Fins are protected by a special acrylic paint with a high resistance to corrosion. Flow switch – Supplied separately to be wired and installed on the evaporator water piping (by the customer). Spreader bars – Facilitate the lifting of the units keeping the ropes away from the unit' s casing. Under/Over Voltage – This device control the voltage value and stop the chiller when this exceeds limits set by customer. Rubber type antivibration mounts – Supplied separately, these are positioned under the base of the unit during installation. Ideal to reduce the vibrations when the unit is floor mounted. Spring type antivibration mounts – Supplied separately, these are positioned under the base of the unit during installation. Ideal for dampening vibrations for installation on roofs and metallic structures. Soft start – Electronic starting device to reduce inrush current and to start compressors gradually, with very low mechanical stress. An overload protection is included (no need of compressors thermal relays). Witness tests – Every unit is always tested at the test bench prior to the shipment. On request, a second test can be carried out, at customer’s presence, in accordance with the procedures indicated on the test form. (Not available for units with Glycol mixtures). Water circulation pump – The pump is unit mounted. Hydronic kit consists of: one centrifugal pump direct driven, expansion tank, water feed circuit with pressure gauge, safety valve. The pump motor is protected by a circuit breaker installed in control panel. The kit is assembled and wired to the control panel. Two water circulation pumps – Pumps units are unit mounted. Hydronic kit consists of: two centrifugal pumps direct driven, expansion tank, water feed circuit with pressure gauge, safety valve, check valves, shut-off valves. The pumps motors are protected by circuit breakers installed in control panel. The kit is assembled and wired to the control panel.

Installation notes Handling Care should be taken to avoid rough handling or shock due to dropping the unit. Do not push or pull the unit from anything other than the base, and block the pushing vehicle away from the unit to prevent damage to the cabinet. Never allow the unit fall during unloading or moving as this may result in serious damage. To lift the unit, holes are provided in the base of the unit. Spreader bar and cables should be arranged to prevent damage to the condenser coil or unit cabinet.

Location The Energyplus B units are produced for outside installation on roofs, floors or below ground level on condition that the area is free from obstacles for the passage of the condenser air. The unit should be positioned on solid foundations and perfectly level; in the case of installation on roofs or floors, it may be advisable to arrange the use of suitable weight distribution beams. When the units are installed on the ground, a concrete base at least 250 mm wider and longer than the unit’s footprint should be laid. Furthermore, this base should withstand the unit weight mentioned in the technical data table. When the units are positioned in areas which are easily accessible by persons or animals, it is advisable to fit guards to protect the condenser coil guards and, when necessary, also guards to protect the evaporator area.

Space requirements The Energyplus B units are air-cooled, hence it is important to observe the minimum distances which guarantee the best ventilation of the condenser coils. Limitations of space reducing the air flow could cause significant reductions in cooling capacity and an increase in electricity consumption. To determinate unit placement, careful consideration must be given to assure a sufficient air flow across the condenser heat transfer surface. Two conditions must be avoided to achieve the best performance: warm air recirculation and coil starvation.

509B – 06/04 C– pag. 9/40

Both these conditions cause an increase of condensing pressures that results in reductions in unit efficiency and capacity. The Energyplus B chiller performance is less affected in poor air flow situations because of its special condensing coil geometry. Moreover McQuayâ&#x20AC;&#x2122;s unique microprocessor has the ability to calculate the operating environment of the chiller and the capacity to optimize its performance staying on-line during abnormal conditions. Each side of the unit must be accessible after installation for periodic service. Fig.1 shows you minimum recommended clearance requirements. Vertical condenser air discharge must be unobstructed because the unit would have its capacity and efficiency significantly reduced. If the units are positioned in places surrounded by walls or obstacles of the same height as the units, the units should be at least 2500 mm from obstacles (fig.2). In the event the obstacles are higher than the units, the units should be at least 3000 mm from the obstacle (fig.4). Units installed closer than the minimun recommended distance to a wall or other vertical riser may experience a combination of coil starvation and warm air recirculation, thus causing reduction in unit capacity and efficienty reductions. Once again, the microprocessor will allow the chiller to stay on line, producing the maximum available capacity, even at less than recommended lateral clearances. When two or more units are positioned side by side it is recommended that the condenser coils are at least 3600 mm distance from one another (fig.3); stong wind could be the cause of air warm recirculation. For other installation solutions, consult McQuay technicians.

Acoustic protection The low noise levels of the Energyplus B units means that they meet the most restrictive regulations, thanks to the availability of four versions with different sound levels. When the noise level must meet special requirements it will be necessary to pay the maximum attention to ensure the perfect insulation of the unit from the support base by applying appropriate vibration-dampening devices, applying vibration-dampening mounts on the water pipes and on the electrical connections.

509 B â&#x20AC;&#x201C; 06/04 C â&#x20AC;&#x201C; pag. 10/40

Table 1 – Operating limits – Energyplus B SE Unit version Max ambient temperature Min ambient temperature (1) Max leaving evaporator water temperature Min leaving evap. water temp.(without glycol) Min leaving evap. water temp.(with glycol) Max evaporator ∆T Min evaporator ∆T

ST/CN + 45 + 10 + 10 +4 -8 8 4

°C °C °C °C °C °C °C

LN + 40 +5 + 10 +4 -8 8 4

XN + 40 + 5 + 10 +4 -8 8 4

XXN + 40 +5 + 10 +4 -8 8 4

Note: (1) When air temperature is lower then +10°C (ST – CN) or +5°C (LN – XN – XXN) you need the fan speed control device. Speedtrol allows unit running with air temperature down to –18°C; fan speed modulation or fan silent mode allows unit running with air temperature down to –10°C.

Table 2 – Operating limits – Energyplus B XE Unit version Max ambient temperature Min ambient temperature (1) Max leaving evaporator water temperature Min leaving evap. water temp.(without glycol) Min leaving evap. water temp.(with glycol) Max evaporator ∆T Min evaporator ∆T

ST/CN + 50 + 10 + 10 +4 -8 8 4

°C °C °C °C °C °C °C

LN + 45 +5 + 10 +4 -8 8 4

XN + 45 +5 + 10 +4 -8 8 4

Note: (1) When air temperature is lower then +10°C (ST – CN) or +5°C (LN – XN) you need the fan speed control device. Speedtrol allows unit running with air temperature down to –18°C; fan speed modulation or fan silent mode allows unit running with air temperature down to –10°C.

Table 3 – Operating limits – Energyplus B HA Unit version Max ambient temperature Min ambient temperature Max leaving evaporator water temperature Min leaving evap. water temp.(without glycol) Min leaving evap. water temp.(with glycol) Max evaporator ∆T Min evaporator ∆T

°C °C °C °C °C °C °C

ST/CN + 50 + 10 + 10 +4 -8 8 4

Table 4 – Evaporator fouling factors Fouling factors m2°C / kW

Cooling capacity correction factor

Power input corretion factor

COP correction factor

0,0176 0,0440 0,0880 0,1320

1,000 0,978 0,957 0,938

1,000 0,986 0,974 0,962

1,000 0,992 0,983 0,975

Table 5 – Altitude correction factors Elvation above sea level (m) Barometric pressure (mbar) Cooling cap.correction factor Power input correction factor

0 1013 1,000 1,000

300 977 0,993 1,005

600 942 0,986 1,009

900 908 0,979 1,015

1200 875 0,973 1,021

1500 843 0,967 1,026

1800 812 0,960 1,031

509B – 06/04 C– pag. 11/40

Table 6 – Ethylene glycol and low ambient temperature correction factors Air ambient temperature °C % of ethylene glycol by weight Cooling capacity correction factor Power input correction factor Flow rate correction factor Water pressure drops correction factor

-3 10 0,991 0,996 1,013 1,070

-8 20 0,982 0,992 1,040 1,129

-15 30 0,972 0,986 1,074 1,181

Table 7 – Low temperature operation performance factors Ethylene glycol/water leaving temperature °C Max air ambient temperature °C (SE-ST) Max air ambient temperature °C (XE-ST) Cooling capacity correction factor Power input compressors correction factor Min. % of ethylene glycol

2 40 44 0,842 0,95 10

0 39 43 0,785 0,94 20

-2 38 42 0,725 0,92 20

-4 37 41 0,670 0,89 30

-23 40 0,961 0,976 1,121 1,263

-6 36 40 0,613 0,87 30

-35 50 0,946 0,966 1,178 1,308

-8 35 39 0,562 0,84 30

Low temperature operation performance factors must be applied to the nominal performance data to have the adjusted value (12/7°C, design ambient temperature).

Nomenclature Energyplus B XE 101 . 2 LN 134 Air cooled screw chiller

SE XE HA

Standard Efficiency High Efficiency High Ambient

101÷165

Unit size

N° of compressors

ST CN LN XN XXN

Standard version Sound proof cabinet around compressors Low noise version Extra low noise version Super quiet

134

Refrigerant HFC 134a

509 B – 06/04 C – pag. 12/40

Physical data Energyplus B SE ST / CN HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit shipping weight ( CN ) Standard unit operating weight Standard unit operating weight ( CN ) Unit length Unit width Unit height

101.2

114.2

125.2

142.2

165.2

No. No. kg l %

370,7 131,2 2,83 2 2 80 20 12,5%

408,0 147,1 2,77 2 2 85 20 12,5%

452,0 164,4 2,75 2 2 85 20 12,5%

523,1 181,2 2,89 2 2 90 20 12,5%

600,0 195,2 3,07 2 2 90 20 12,5%

kW rpm mm m3/s

6/2 900 800 32,1

6/2 900 800 31,2

6/2 900 800 30,2

8/2 900 800 42,8

No./l bar mm

1 / 181 10,5 139,7

1 / 227 10,5 139,7

1 / 273 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg kg kg mm mm mm

3515 3775 3696 3956 3460 2230 2520

3565 3825 3792 4052 3460 2230 2520

3895 4195 4168 4468 4355 2230 2520

4045 4345 4318 4618 4355 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B SE ST / CN HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

A A A A A A

101.2

114.2

223 273 24 297 424 318

247 304 24 328 424 336

125.2 400 V – 3f – 50 Hz 270 335 24 349 447 354

142.2

165.2

354 399 32 431 463 449

372 423 32 455 466 469

Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. Nominal current are based on: 12/7 °C entering/leaving evaporator water temperature and 35°C ambient temp. Maximum current are based on: 15/10 °C entering/leaving evaporator water temperature and 45°C ambient temp. Inrush current of biggest compressor + 75% of nominal absorbed current of the other compressor + fans current. Compressor FLA + fans current.

509B – 06/04 C– pag. 13/40

Physical data Energyplus B SE LN / XN HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit shipping weight ( XN ) Standard unit operating weight Standard unit operating weight ( XN ) Unit length Unit width Unit height

101.2

114.2

125.2

142.2

165.2

No. No. kg l %

359,4 138,6 2,59 2 2 80 20 12,5%

402,7 158,8 2,54 2 2 85 20 12,5%

433,2 176,5 2,45 2 2 85 20 12,5%

493,9 197,7 2,50 2 2 90 20 12,5%

572,6 220,9 2,59 2 2 90 20 12,5%

kW rpm mm m3/s

6/1,25 700 800 23,7

6/1,25 700 800 23,1

6/1,25 700 800 24,5

8/1,25 700 800 31,7

No./l bar mm

1 / 181 10,5 139,7

1 / 227 10,5 139,7

1 / 273 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg kg kg mm mm mm

3515 3775 3696 3956 3460 2230 2520

3565 3825 3792 4052 3460 2230 2520

3895 4195 4168 4468 4355 2230 2520

4045 4345 4318 4618 4355 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B SE LN / XN HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

A A A A A A

101.2

114.2

234 264 14 277 419 308

262 297 14 311 419 326

125.2 400 V – 3f – 50 Hz 288 328 14 342 446 344

142.2

165.2

371 407 18 425 458 435

405 412 18 431 464 456

Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. Nominal current are based on: 12/7 °C entering/leaving evaporator water temperature and 35°C ambient temp. Maximum current are based on: 15/10 °C entering/leaving evaporator water temperature and 40°C ambient temp. Inrush current of biggest compressor + 75% of nominal absorbed current of the other compressor + fans current. Compressor FLA + fans current.

509 B – 06/04 C – pag. 14/40

Physical data Energyplus B SE XXN HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit operating weight Unit length Unit width Unit height

101.2

114.2

125.2

142.2

No. No. kg l %

363,3 136,0 2,67 2 2 90 20 12,5%

409,5 149,4 2,74 2 2 95 20 12,5%

447,8 161,5 2,77 2 2 100 20 12,5%

484,6 158,4 3,06 2 2 110 20 12,5%

kW rpm mm m3/s

8/0,77 500 800 31,7

9/0,77 500 800 35,6

10/0,77 500 800 39,6

No./l bar mm

1 / 190 10,5 139,7

1 / 225 10,5 139,7

1 / 221 10,5 139,7

1 / 265 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg mm mm mm

4110 4300 4355 2230 2520

4335 4560 5255 2230 2520

4435 4656 5255 2230 2520

4535 4800 5255 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B SE XXN HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

101.2

A A A A A A

232 261 12 273 416 306

114.2 125.2 400 V – 3f – 50 Hz 255 274 288 310 14 15 301 325 418 440 326 345

142.2 285 328 15 343 458 432

Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. Nominal current are based on: 12/7 °C entering/leaving evaporator water temperature and 35°C ambient temp. Maximum current are based on: 15/10 °C entering/leaving evaporator water temperature and 40°C ambient temp. Inrush current of biggest compressor + 75% of nominal absorbed current of the other compressor + fans current. Compressor FLA + fans current.

509B – 06/04 C– pag. 15/40

Physical data Energyplus B XE ST / CN HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit shipping weight ( CN ) Standard unit operating weight Standard unit operating weight ( CN ) Unit length Unit width Unit height

101.2

114.2

125.2

142.2

165.2

No. No. kg l %

392,6 128,8 3,05 2 2 80 20 12,5%

456,4 135,1 3,38 2 2 85 20 12,5%

491,6 150,5 3,27 2 2 90 20 12,5%

562,4 165,8 3,39 2 2 100 20 12,5%

624,0 180,7 3,45 2 2 100 20 12,5%

kW rpm mm m3/s

6/2 900 800 31,6

8/2 900 800 44,2

10 / 2 900 800 52,8

No./l bar mm

1 / 227 10,5 139,7

1 / 205 10,5 139,7

1 / 265 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg kg kg mm mm mm

3565 3825 3792 4052 3460 2230 2520

3855 4155 4060 4360 4355 2230 2520

4235 4535 4500 4800 5255 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B XE ST / CN HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

A A A A A A

101.2

114.2

219 290 24 314 422 318

235 313 32 339 430 344

125.2 400 V – 3f – 50 Hz 259 348 32 357 450 362

142.2

165.2

334 385 40 425 459 457

354 405 40 445 463 477

Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. Nominal current are based on: 12/7 °C entering/leaving evaporator water temperature and 35°C ambient temp. Maximum current are based on: 15/10 °C entering/leaving evaporator water temperature and 50°C ambient temp. Inrush current of biggest compressor + 75% of nominal absorbed current of the other compressor + fans current. Compressor FLA + fans current.

509 B – 06/04 C – pag. 16/40

Physical data Energyplus B XE LN / XN HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit shipping weight ( XN ) Standard unit operating weight Standard unit operating weight ( XN ) Unit length Unit width Unit height

101.2

114.2

125.2

142.2

165.2

No. No. kg l %

379,5 136,6 2,78 2 2 80 20 12,5%

444,9 141,5 3,14 2 2 85 20 12,5%

478,2 158,3 3,02 2 2 90 20 12,5%

528,6 175,4 3,01 2 2 100 20 12,5%

605,5 199,6 3,03 2 2 100 20 12,5%

kW rpm mm m3/s

6/1 700 800 22,5

8/1 700 800 31,7

10 / 1 700 800 39,6

No./l bar mm

1 / 227 10,5 139,7

1 / 205 10,5 139,7

1 / 265 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg kg kg mm mm mm

3565 3825 3792 4052 3460 2230 2520

3855 4155 4060 4360 4355 2230 2520

4235 4535 4500 4800 5255 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B XE LN / XN HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

A A A A A A

101.2

114.2

230 282 14 296 417 308

245 300 18 319 421 330

125.2 400 V – 3f – 50 Hz 271 335 18 343 442 348

142.2

165.2

347 393 23 393 450 440

371 396 23 419 455 460

509B – 06/04 C– pag. 17/40

Physical data Energyplus B HA HFC 134a Energyplus B unit size Cooling capacity (1) Power input (1) COP McQuay Screw compressors Refrigerant circuits Refrigerant charge HFC 134a Oil charge Min % of capacity reduction Condenser fans No. of fans / nominal power fan Fan speed Diameter Total air flow Evaporator Evaporators / water volume Max operating pressure Water connection diameter Condenser coil Coil type Weight and dimensions Standard unit shipping weight Standard unit operating weight Unit length Unit width Unit height

101.2

114.2

125.2

142.2

165.2

No. No. kg l %

378,0 126,6 2,99 2 2 80 20 12,5%

444,2 133,5 3,33 2 2 85 20 12,5%

477,5 148,6 3,21 2 2 90 20 12,5%

547,3 168,9 3,24 2 2 100 20 12,5%

616,1 179,5 3,43 2 2 100 20 12,5%

kW rpm mm m3/s

6 / 1,6 900 800 31,6

8 / 1,6 900 800 44

10 / 1,6 900 800 55,3

No./l bar mm

1 / 227 10,5 139,7

1 / 205 10,5 139,7

1 / 265 10,5 139,7

kW kW

Lanced fins – Internally spiral wound tubes

kg kg mm mm mm

3565 3792 3460 2230 2520

3855 4060 4355 2230 2520

4235 4500 5255 2230 2520

Note: (1) Nominal cooling capacity and power input are based on: 12/7 °C entering/leaving evaporator water temperature; 35°C ambient temperature. The power input is for compressor only.

Electrical data Energyplus B HA HFC 134a Energyplus B unit size

Standard voltage (1) Nominal unit current (2) Max compressor current (3) Fans current Max unit current (3) Max unit inrush current (4) Max unit current for wires sizing (5) Notes: (1) (2) (3) (4) (5)

A A A A A A

101.2

114.2

217 288 24 312 421 318

232 310 32 342 429 344

125.2 142.2 400 V – 3ph – 50 Hz 255 339 344 323 32 40 357 363 448 459 362 457

Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. Nominal current are based on: 12/7 °C entering/leaving evaporator water temperature and 35°C ambient temp. Maximum current are based on: 15/10 °C entering/leaving evaporator water temperature and 50°C ambient temp. Inrush current of biggest compressor + 75% of nominal absorbed current of the other compressor + fans current. Compressor FLA + fans current.

509 B – 06/04 C – pag. 18/40

165.2 352 332 40 372 464 477

Sound pressure level Energyplus B SE, XE, HA ST Sound pressure level at 1 m from the unit in free field (rif. 2 x 10-5 Pa)

Energyplus B unit size

63 Hz

125 Hz

250 Hz

500 Hz

1000 Hz

2000 Hz

4000 Hz

8000 Hz

dBA

101.2 114.2 125.2 142.2 165.2

65,0 65,0 66,0 66,0 66,0

73,5 74,0 74,5 74,5 74,5

72,0 72,0 73,0 73,0 73,0

79,0 79,5 80,0 79,5 79,5

71,5 71,5 72,0 72,0 72,0

73,0 73,5 74,0 74,0 74,0

60,5 61,0 62,0 62,0 62,0

52,5 53,0 54,0 54,5 54,5

79,0 79,5 80,0 80,0 80,0

Sound pressure level Energyplus B SE, XE, HA CN Sound pressure level at 1 m from the unit in free field (rif. 2 x 10-5 Pa)

Energyplus B unit size

63 Hz

125 Hz

250 Hz

500 Hz

1000 Hz

2000 Hz

4000 Hz

8000 Hz

dBA

101.2 114.2 125.2 142.2 165.2

63,0 63,0 63,5 63,5 63,5

72,0 72,0 72,5 72,5 72,5

70,5 71,5 72,0 72,5 72,5

77,0 77,0 78,0 77,5 77,5

68,5 70,0 70,0 70,5 70,5

71,0 71,5 71,5 72,0 72,0

58,5 58,5 59,0 59,0 59,0

50,4 51,5 51,0 52,0 52,0

77,0 77,5 78,0 78,0 78,0

Sound pressure level Energyplus B SE, XE, LN Sound pressure level at 1 m from the unit in free field (rif. 2 x 10-5 Pa)

Energyplus B unit size

63 Hz

125 Hz

250 Hz

500 Hz

1000 Hz

2000 Hz

4000 Hz

8000 Hz

dBA

101.2 114.2 125.2 142.2 165.2

56,0 56,5 56,5 57,0 57,0

67,0 66,5 67,0 70,0 70,0

67,5 67,5 68,0 67,5 67,5

75,0 75,0 75,5 75,5 75,5

67,0 66,5 67,0 67,5 67,5

70,0 70,5 70,5 70,5 70,5

55,0 55,0 55,5 55,5 55,5

47,0 47,0 47,5 48,0 48,0

75,5 75,5 76,0 76,0 76,0

Sound pressure level Energyplus B SE, XE, XN Sound pressure level at 1 m from the unit in free field (rif. 2 x 10-5 Pa)

Energyplus B unit size

63 Hz

125 Hz

250 Hz

500 Hz

1000 Hz

2000 Hz

4000 Hz

8000 Hz

dBA

101.2 114.2 125.2 142.2 165.2

57,0 56,5 56,5 56,5 57,0

70,0 70,5 70,0 70,5 71,0

69,5 69,5 69,0 69,5 70,0

71,5 71,5 72,0 71,5 72,0

65,5 65,5 65,5 65,5 66,0

61,5 61,5 61,5 61,0 61,5

54,0 54,5 54,5 54,5 55,0

44,0 45,0 45,5 45,0 45,5

71,5 71,5 71,5 71,5 72,0

Sound pressure level Energyplus B SE XXN Sound pressure level at 1 m from the unit in free field (rif. 2 x 10-5 Pa)

Energyplus B unit size

63 Hz

125 Hz

250 Hz

500 Hz

1000 Hz

2000 Hz

4000 Hz

8000 Hz

dBA

101.2 114.2 125.2 142.2

62,5 62,0 63,0 61,0

59,5 60,0 59,0 58,0

63,5 63,5 63,0 63,0

62,5 63,0 62,0 64,0

60,5 60,0 60,0 58,5

58,5 58,0 59,0 58,0

46,5 47,0 46,0 49,5

36,0 36,5 36,5 38,5

65,0 65,0 65,0 65,0

Note: Average sound pressure level rated in accordance to ISO 3744, free field semispheric conditions. Note: Sound pressure levels are referred to Energyplus B units furnished without water pump.

509B â&#x20AC;&#x201C; 06/04 Câ&#x20AC;&#x201C; pag. 19/40

Sound pressure level correction factor for different distances Energyplus B SE ST, CN, LN, XN Energyplus Distance (m) B unit size 101.2 114.2 125.2 142.2 165.2

0 0 0 0 0

7,8 7,8 7,8 7,6 7,6

12,6 12,6 12,6 12,3 12,3

15,7 15,7 15,7 15,3 15,3

18,0 18,0 18,0 17,6 17,6

19,8 19,8 19,8 19,4 19,4

Sound pressure level correction factor for different distances Energyplus B XE ST, CN, LN, XN; Energyplus B HA ST, CN Energyplus Distance (m) B unit size 101.2 114.2 125.2 142.2 165.2

0 0 0 0 0

7,6 7,3 7,3 7,3 7,3

12,3 12,0 12,0 12,0 12,0

15,3 15,0 15,0 15,0 15,0

17,6 17,2 17,2 17,2 17,2

19,4 19,0 19,0 19,0 19,0

Correction factor for different distances Energyplus B SE XXN Energyplus Distance (m) B unit size 101.2 114.2 125.2 142.2

0 0 0 0

7,8 7,6 7,6 7,3

12,6 12,3 12,3 12,0

15,7 15,3 15,3 15,0

18,0 17,6 17,6 17,2

19,8 19,4 19,4 19,0

Note: The values reported in tables must be substracted to those declaread at 1 meter in free field semispheric conditions.

509 B â&#x20AC;&#x201C; 06/04 C â&#x20AC;&#x201C; pag. 20/40

Unit size

101.2

114.2

125.2

142.2

165.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B SE 101.2 ÷ 165.2 ST, CN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

374,3 385,2 396,5 407,7 419,3 430,8 442,6 412,9 424,8 437,0 449,4 461,9 474,6 487,4 458,3 471,8 485,3 499,0 512,9 526,9

103,4 105,0 106,6 108,3 110,0 111,7 113,5 116,0 117,8 119,6 121,5 123,4 125,4 127,4 129,7 131,7 133,9 136,1 138,3 140,6 143,0 145,8 148,6 151,4 154,4 157,3 160,3 163,7 153,3 155,9 158,7 161,5 164,5 167,5 170,6

357,3 367,9 378,7 389,7 400,8 411,9 423,4 393,9 405,5 417,3 429,1 441,3 453,5 465,9 436,8 449,7 462,7 476,0 489,4 503,0 516,7 505,3 520,4 535,6 551,0 566,8 582,8 598,9 570,0 585,8 601,8 618,2 635,4 652,7 670,1

114,2 115,8 117,5 119,2 121,0 122,7 124,6 128,0 129,9 131,8 133,7 135,7 137,7 139,8 143,0 145,1 147,3 149,5 151,9 154,2 156,6 158,5 161,2 164,1 167,0 169,9 173,1 176,2 169,2 171,8 174,5 177,4 180,4 183,4 186,6

339,6 349,9 360,3 370,7 381,5 392,3 403,2 374,0 385,1 396,6 408,0 419,7 431,6 443,4 414,2 426,6 439,2 452,0 464,9 478,0 491,2 479,0 493,5 508,2 523,1 538,2 553,4 568,9 552,5 568,1 583,7 600,0 615,6 632,4 649,4

126,0 127,7 129,4 131,2 133,0 134,8 136,7 141,3 143,2 145,1 147,1 149,2 151,3 153,4 157,7 159,9 162,1 164,4 166,7 169,2 171,6 172,7 175,4 178,3 181,2 184,1 187,3 190,4 186,9 189,6 192,4 195,2 198,1 201,2 204,4

321,0 330,9 340,8 351,0 361,3 371,7 382,2 353,1 363,9 374,9 385,9 397,1 408,5 419,9 390,5 402,5 414,5 426,8 439,2 451,7 464,4 451,6 465,6 479,7 493,9 508,3 523,0 537,9 532,2 547,5 562,8 578,3 594,1 609,9 626,0

139,1 140,8 142,5 144,3 146,1 148,0 149,9 156,1 158,0 159,9 161,9 164,0 166,1 168,3 174,0 176,2 178,4 180,8 183,1 185,6 188,1 188,5 191,2 194,0 197,0 199,9 203,1 206,2 206,5 209,2 212,1 215,0 217,9 221,0 224,2

301,4 310,9 320,5 330,2 340,1 350,1 360,2 331,2 341,6 352,0 362,6 373,4 384,2 395,2 365,6 377,1 388,6 400,3 412,1 424,2 436,3 423,0 433,4 434,4 438,0 441,3 440,5 446,4 509,1 524,0 538,9 542,3 545,2 547,3 548,8

153,6 155,3 157,0 158,8 160,6 162,5 164,4 172,5 174,3 176,3 178,3 180,3 182,5 184,6 192,2 194,4 196,6 198,9 201,2 203,7 206,2 205,9 207,2 204,6 203,1 201,3 197,7 197,0 228,0 230,8 233,7 231,6 229,6 227,2 224,6

530,5 546,1 561,9 578,0 594,4 610,9 628,6 585,1 601,1 617,8 635,3 652,6 670,1 688,0

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509B – 06/04 C– pag. 21/40

Unit size

101.2

114.2

125.2

142.2

165.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B SE 101.2 ÷ 165.2 LN, XN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

365,0 375,6 386,3 397,1 408,0 419,2 430,4 410,8 422,7 434,8 447,0 459,4 471,8 484,5 443,1 455,7 468,5 481,4 494,6 507,7 521,1 506,6 521,0 535,5 550,2 565,0 580,0 595,2 567,6 582,8 598,1 613,5 629,1 644,8 660,8

109,2 111,0 112,8 114,7 116,6 118,5 120,5 125,2 127,4 129,6 131,8 134,1 136,5 138,9 139,0 141,4 143,8 146,3 148,9 151,5 154,2 158,6 161,6 164,8 168,1 171,4 174,8 178,4 172,5 175,6 178,8 182,1 185,5 189,0 192,6

347,8 357,9 368,2 378,6 389,2 399,9 410,8 390,5 401,9 413,6 425,4 437,2 449,2 461,4 421,1 433,2 445,5 457,9 470,5 483,2

120,5 122,3 124,2 126,1 128,0 130,0 132,1 137,9 140,1 142,4 144,7 147,0 149,5 151,9 153,2 155,6 158,1 160,6 163,3 166,0 168,7 172,4 175,5 178,8 182,1 185,5 188,9 192,6 190,6 193,8 197,2 200,6 204,1 207,7 211,4

329,6 339,5 349,3 359,4 369,6 379,9 390,3 369,3 380,3 391,4 402,7 414,1 425,6 437,2 397,8 409,5 421,4 433,2 445,3 457,5 469,8 453,7 467,0 480,4 493,9 507,6 521,4 535,3 529,0 543,4 558,0 572,6 587,4 602,4 617,4

132,9 134,8 136,7 138,6 140,6 142,7 144,8 151,9 154,2 156,4 158,8 161,2 163,7 166,2 168,9 171,3 173,9 176,5 179,1 181,9 184,7 187,9 191,1 194,3 197,7 201,1 204,6 208,3 210,6 214,0 217,4 220,9 224,5 228,2 232,0

310,6 320,0 329,6 339,3 348,9 358,8 368,8 347,0 357,5 368,1 378,9 389,9 400,9 412,0 373,5 384,7 396,0 407,4 418,8 430,5 442,3 425,6 438,3 451,0 464,0 476,9 481,2 484,8 505,4 508,9 512,0 514,5 516,4 517,7 522,6

146,7 148,5 150,4 152,4 154,4 156,5 158,7 167,5 169,7 172,0 174,4 176,8 179,3 181,9 186,3 188,8 191,3 193,9 196,6 199,4 202,3 205,1 208,3 211,6 214,9 218,4 217,1 215,7 232,5 230,5 228,5 226,2 223,5 220,4 219,3

480,7 494,5 508,6 522,7 536,9 551,3 565,9 549,7 564,5 579,4 594,5 609,6 625,1 640,5

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509 B – 06/04 C – pag. 22/40

Unit size

101.2

114.2

125.2

142.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B SE 101.2 ÷ 142.2 XXN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

368,2 378,9 389,8 400,8 411,9 423,2 434,5 414,8 427,0 439,4 452,0 464,8 477,7 490,8 453,3 466,6 480,0 493,7 507,5 521,5 535,7 490,1 505,1 520,3 535,5 551,1 566,9 582,9

107,2 108,9 110,7 112,5 114,3 116,1 118,0 118,0 119,9 121,8 123,8 125,9 128,0 130,1 127,4 129,5 131,5 133,6 135,8 138,0 140,3 125,3 127,4 129,6 131,7 134,0 136,2 138,6

351,0 361,4 371,8 382,4 393,2 404,0 415,1 395,2 407,1 419,1 431,2 443,5 456,0 468,6 432,2 445,1 458,1 471,3 484,6 498,1 511,8 466,8 481,3 495,8 510,7 525,6 540,8 556,3

118,3 120,1 121,9 123,7 125,6 127,5 129,5 130,0 132,0 134,0 136,0 138,2 140,3 142,5 140,5 142,6 144,7 146,9 149,1 151,4 153,8 137,9 139,9 142,2 144,5 146,7 149,1 151,5

333,1 343,0 353,1 363,3 373,7 384,1 394,7 374,8 386,2 397,8 409,5 421,3 433,3 445,4 410,2 422,6 435,1 447,8 460,7 473,7 486,9 442,6 456,4 470,4 484,6 499,1 513,7 528,6

130,5 132,3 134,2 136,0 138,0 139,9 142,0 143,3 145,3 147,3 149,4 151,6 153,8 156,1 155,0 157,1 159,3 161,5 163,8 166,1 168,5 151,6 153,9 156,0 158,4 160,7 163,1 165,6

314,2 323,7 333,5 343,2 353,2 363,2 373,4 353,5 364,4 375,5 386,7 398,1 409,6 421,2 387,1 399,0 411,1 423,3 435,6 448,2 460,8 417,2 430,5 443,9 457,5 471,5 485,5 499,7

144,0 145,8 147,7 149,6 151,6 153,6 155,6 158,0 160,0 162,0 164,1 166,3 168,6 170,9 171,1 173,2 175,4 177,6 179,9 182,3 184,7 166,9 169,1 171,3 173,7 176,0 178,5 181,0

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509B – 06/04 C– pag. 23/40

Unit size

101.2

114.2

125.2

142.2

165.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B XE 101.2 ÷ 165.2 ST, CN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

Cooling Power Cooling Power Cooling Power Cooling Power Cooling Power Cooling Power capac. input capac. input capac. input capac. input capac. input capac. input (kW) (kW) (kW) (kW) (kW) (kW) (kW) (kW) (kW) (kW) (kW) (kW)

395,3 407,3 419,6 432,0 444,6 457,3 470,3 457,3 471,6 486,0 500,7 515,8 530,9 546,3 493,7 508,8 524,2 539,8 555,7 571,6 564,3 581,6 599,2 617,0 635,1 653,8 672,7 603,5 620,3 637,4 654,6 672,5 691,2 710,2

101,8 103,4 105,0 106,7 108,4 110,1 111,8 106,9 108,5 110,1 111,8 113,4 115,2 116,9 119,1 120,9 122,8 124,7 126,6 128,6 130,6 134,5 136,9 139,5 142,1 144,7 147,6 150,4 142,9 145,2 147,6 150,1 152,7 155,5 158,3

377,3 388,8 400,7 412,7 424,8 437,1 449,6 436,9 450,8 464,7 479,0 493,5 508,2 523,1 471,7 486,3 501,2 516,2 531,5 547,1 562,8 539,2 556,0 573,0 590,2 607,8 625,7 643,9 590,1 606,6 623,4 640,5 657,7 675,7 694,5

112,2 113,9 115,5 117,2 119,0 120,8 122,6 117,9 119,5 121,2 122,9 124,7 126,5 128,3 131,3 133,2 135,1 137,0 139,0 141,1 143,2 145,7 148,1 150,6 153,3 155,9 158,7 161,5 157,2 159,6 162,0 164,5 167,0 169,7 172,6

358,5 369,6 381,0 392,6 404,3 416,2 428,2 415,8 429,1 442,7 456,4 470,4 484,6 499,0 448,7 462,7 477,1 491,6 506,4 521,4 536,7 513,2 529,3 545,7 562,4 579,4 596,6 614,0 574,2 590,6 607,2 624,0 641,0 658,2 676,0

123,6 125,3 127,0 128,8 130,6 132,4 134,3 129,9 131,6 133,3 135,1 136,9 138,7 140,6 144,7 146,6 148,6 150,5 152,6 154,7 156,8 158,4 160,8 163,3 165,8 168,5 171,2 174,0 173,4 175,7 178,2 180,7 183,2 185,9 188,7

338,8 349,5 360,6 371,6 382,9 394,3 405,9 393,8 406,6 419,6 432,9 446,4 460,0 473,9 424,6 438,2 452,0 466,0 480,3 494,7 509,4 486,0 501,5 517,3 533,3 549,7 566,3 583,1 555,9 572,0 588,3 604,9 621,6 638,6 655,7

136,2 137,9 139,6 141,4 143,2 145,1 147,0 143,2 144,9 146,6 148,4 150,2 152,1 154,0 159,6 161,5 163,4 165,4 167,5 169,6 171,8 172,6 175,0 177,5 180,0 182,7 185,3 188,2 191,4 193,8 196,2 198,8 201,4 204,0 206,8

318,3 328,7 339,2 349,8 360,6 371,5 382,6 370,8 383,0 395,5 408,3 421,3 434,4 447,7 399,4 412,4 425,8 439,2 452,9 466,7 480,8 457,6 472,5 487,8 503,2 518,9 534,8 550,9 534,8 550,6 566,6 582,9 599,2 615,9 632,8

150,1 151,8 153,5 155,3 157,1 159,0 160,9 157,9 159,5 161,2 163,0 164,8 166,7 168,7 176,0 177,9 179,8 181,8 183,9 186,0 188,2 188,6 190,9 193,4 195,8 198,5 201,1 203,8 211,3 213,7 216,2 218,7 221,4 224,1 226,8

296,7 306,6 316,7 326,9 337,2 347,6 358,2 346,6 358,5 370,4 382,6 395,0 407,6 420,3 373,0 385,6 398,3 411,1 424,2 427,0 430,0 428,0 442,4 456,9 471,8 483,3 483,9 487,6 443,0 448,1 448,4 452,6 456,3 459,6 457,2

165,5 167,1 168,8 170,6 172,4 174,2 176,2 174,1 175,7 177,4 179,1 181,0 182,8 184,8 194,3 196,1 198,0 199,9 202,0 203,0 204,0 206,2 208,5 210,9 213,4 214,5 211,9 210,3 207,5 206,0 202,5 200,7 198,7 196,6 192,4

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509 B – 06/04 C – pag. 24/40

Unit size

101.2

114.2

125.2

142.2

165.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B XE 101.2 ÷ 165.2 LN, XN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

Cooling capacity (kW)

Power input (kW)

384,5 396,0 407,6 419,5 431,4 443,6 455,9 447,8 461,6 475,5 489,7 504,2 518,8 533,6 482,6 497,2 512,0 526,9 542,1 557,6 573,1 522,8 537,2 551,8 566,5 581,5 596,8 612,6 592,0 608,2 624,5 641,1 657,9 674,9 692,2

108,0 109,8 111,6 113,4 115,4 117,3 119,3 112,0 113,7 115,5 117,4 119,2 121,2 123,1 125,2 127,2 129,2 131,3 133,5 135,7 137,9 131,7 134,1 136,4 138,7 141,0 143,5 145,9 156,8 159,5 162,3 165,2 168,1 171,1 174,2

366,1 377,3 388,5 399,8 411,4 423,0 434,9 427,2 440,6 454,0 467,8 481,6 495,8 510,1 460,2 474,3 488,6 503,1 517,7 532,6 547,7 503,5 518,0 532,8 547,8 562,9 578,4 594,2 576,3 592,2 608,4 624,6 641,1 657,8 674,7

118,9 120,7 122,6 124,5 126,5 128,5 130,6 123,3 125,2 127,0 128,9 130,9 132,8 134,9 137,9 139,9 142,0 144,2 146,4 148,7 151,0 149,8 151,9 154,0 156,1 158,3 160,5 162,9 172,9 175,7 178,5 181,5 184,5 187,5 190,7

347,0 357,7 368,6 379,5 390,5 401,7 413,1 405,8 418,6 431,7 444,9 458,3 471,9 485,7 436,9 450,5 464,2 478,2 492,2 506,6 521,1 484,8 499,3 513,9 528,6 543,7 558,9 574,6 558,2 573,7 589,6 605,5 621,7 638,0 654,6

130,8 132,7 134,6 136,6 138,6 140,7 142,8 135,8 137,7 139,6 141,5 143,5 145,6 147,7 151,9 153,9 156,1 158,3 160,6 162,9 165,3 169,1 171,2 173,3 175,4 177,7 180,0 182,7 190,9 193,7 196,6 199,6 202,7 205,8 209,1

327,1 337,3 347,7 358,2 368,8 379,5 390,4 383,6 395,9 408,3 421,1 434,0 447,0 460,2 412,4 425,5 438,7 452,1 465,7 479,4 493,4 464,4 478,3 492,4 506,7 521,2 536,0 551,2 537,2 552,4 567,9 583,5 599,3 615,3 627,0

144,1 146,0 147,9 149,9 151,9 154,1 156,2 149,6 151,5 153,4 155,3 157,4 159,4 161,6 167,4 169,5 171,6 173,8 176,1 178,5 180,9 190,0 192,3 194,6 197,1 199,6 202,5 205,4 210,8 213,7 216,6 219,7 222,8 226,0 227,5

306,1 315,8 325,8 335,8 346,0 356,2 366,6 360,2 372,0 384,0 396,2 408,5 421,1 433,8 386,9 399,3 412,0 424,8 437,9 451,1 464,4 439,5 452,7 459,4 462,7 465,6 468,2 470,4 467,7 469,2 470,2 474,9 479,3 478,4 481,7

158,7 160,6 162,5 164,5 166,6 168,7 170,8 164,9 166,7 168,6 170,6 172,6 174,7 176,8 184,6 186,6 188,8 191,0 193,2 195,6 198,0 212,7 215,4 214,8 212,8 210,3 207,6 204,5 213,1 210,2 207,1 205,6 204,0 200,2 198,3

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509B – 06/04 C– pag. 25/40

Unit size

101.2

114.2

125.2

142.2

165.2

Note:

Evaporator leaving water temp. (°C)

Standard ratings Energyplus B HA 101.2 ÷ 165.2

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

AIR AMBIENT TEMPERATURE - °C 25

380,2 391,4 402,9 414,5 426,3 438,3 450,3 444,8 458,3 472,1 486,2 500,4 514,8 529,5 479,3 493,7 508,2 523,1 538,1 553,4 568,8 550,5 567,2 584,1 601,3 619,0 638,2 657,6 595,7 612,7 630,3 648,2 666,1 684,3 702,8

99,9 101,3 102,8 104,3 105,9 107,5 109,1 105,5 107,0 108,6 110,1 111,7 113,3 115,0 117,4 119,1 120,9 122,6 124,5 126,3 128,2 136,5 139,0 141,5 144,2 146,9 149,9 153,1 141,8 144,2 146,6 149,2 151,8 154,4 157,2

363,4 374,3 385,4 396,6 408,0 419,6 431,2 425,5 438,6 451,9 465,6 479,3 493,4 507,6 458,3 472,3 486,5 500,7 515,3 530,1 545,1 525,8 541,9 558,2 574,9 591,7 608,9 627,1 582,4 598,7 615,7 633,5 651,2 669,1 687,3

110,3 111,8 113,4 115,0 116,6 118,2 119,9 116,5 118,1 119,7 121,3 123,0 124,7 126,4 129,7 131,4 133,2 135,0 136,9 138,8 140,8 148,1 150,6 153,2 155,7 158,5 161,2 164,2 156,2 158,4 160,9 163,4 166,0 168,7 171,5

345,8 356,4 367,1 378,0 388,9 400,2 411,4 405,3 418,0 430,9 444,2 457,5 471,0 484,7 436,5 450,0 463,7 477,5 491,6 505,9 520,4 500,1 515,6 531,3 547,3 563,6 580,1 596,9 567,0 583,1 599,3 616,1 633,8 651,4 669,3

121,8 123,3 124,9 126,6 128,2 129,9 131,7 128,6 130,2 131,8 133,5 135,2 137,0 138,7 143,1 144,9 146,8 148,6 150,6 152,5 154,5 161,2 163,7 166,2 168,9 171,5 174,2 177,1 172,3 174,6 177,0 179,5 182,1 184,8 187,6

327,5 337,7 348,0 358,5 369,1 379,8 390,7 384,3 396,6 409,1 421,8 434,6 447,6 461,0 413,6 426,6 439,8 453,3 466,8 480,6 494,6 473,2 488,2 503,4 518,8 534,4 550,2 566,3 549,0 564,8 580,9 597,0 613,5 630,9 648,5

134,5 136,0 137,6 139,3 141,0 142,7 144,5 142,0 143,5 145,2 146,9 148,6 150,4 152,2 158,1 159,9 161,7 163,6 165,5 167,5 169,6 175,9 178,4 180,8 183,5 186,1 188,8 191,7 190,4 192,7 195,1 197,6 200,1 202,8 205,6

308,2 317,9 327,9 337,9 348,2 358,5 369,0 362,3 374,1 386,1 398,4 410,8 423,3 436,1 389,7 402,2 414,9 427,8 440,8 454,1 467,6 445,2 459,5 474,2 489,0 503,9 519,2 534,6 528,3 543,8 559,5 575,5 591,6 608,0 624,6

148,5 150,1 151,7 153,3 155,0 156,8 158,6 156,7 158,3 159,9 161,6 163,3 165,1 167,0 174,7 176,4 178,2 180,1 182,1 184,1 186,1 192,3 194,6 197,2 199,7 202,4 205,1 208,0 210,4 212,7 215,1 217,6 220,1 222,8 225,5

287,9 297,3 306,7 316,4 326,1 336,0 346,1 339,3 350,6 362,0 373,8 385,7 397,7 410,0 364,4 376,4 388,6 401,0 413,5 420,3 425,2 394,6 394,8 397,8 400,3 402,2 403,6 408,5 478,1 480,6 482,5 483,7 484,3 488,9 493,0

164,0 165,6 167,1 168,8 170,4 172,2 174,0 173,1 174,6 176,2 177,9 179,6 181,3 183,2 193,1 194,8 196,6 198,4 200,3 202,3 204,3 201,6 198,5 196,4 194,0 191,5 188,7 187,5 222,3 219,9 217,2 214,3 211,0 209,4 207,6

The power input is for compressor only; cooling cap. and power input referred to evap. fouling factor=0,0176m2 °C/kW.

509 B – 06/04 C – pag. 26/40

Unit size

101.2

114.2

125.2

142.2

165.2

Evaporator leaving water temperature °C

Total heat recovery ratings Energyplus B SE 101.2 ÷ 165.2 ST/LN/XN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

HEAT RECOVERY LEAVING WATER TEMPERATURE °C 40 Cooling Power capac. input (kW) (kW)

346,7 358,1 369,7 381,4 393,4 405,6 418,0 386,6 399,2 412,1 425,2 438,6 452,1 465,9 421,6 435,3 449,2 463,3 477,7 492,3 507,1 516,7 533,6 550,9 568,5 586,4 604,7 623,2 575,0 591,6 608,5 625,5 642,8 660,2 678,0

113,6 114,7 115,7 116,8 117,9 119,1 120,2 124,4 125,6 126,7 127,9 129,1 130,3 131,6 134,8 136,0 137,2 138,4 139,7 141,0 142,3 153,4 155,2 157,2 159,3 161,3 163,5 165,7 164,8 166,5 168,3 170,1 172,0 173,9 175,9

Heat Cooling Power recov. capac. input (kW) (kW) (kW)

Heat recov. (kW)

460,3 472,8 485,4 498,2 511,3 524,7 538,2 511,0 524,8 538,8 553,1 567,7 582,4 597,5 556,4 571,3 586,4 601,7 617,4 633,3 649,4 670,0 688,9 708,1 727,8 747,8 768,1 788,9 739,8 758,1 776,8 795,6 814,8 834,1 853,9

454,6 466,7 478,9 491,4 504,1 517,1 530,3 504,6 517,9 531,6 545,4 559,6 573,9 588,6 549,7 564,1 578,8 593,7 608,8 624,3 640,1 657,2 675,5 694,1 713,1 732,5 752,2 772,3 740,3 758,4 776,9 795,5 814,6 833,8 853,3

449,4 461,0 472,9 485,0 497,3 509,9 522,6 498,7 511,6 524,7 538,2 551,7 565,7 579,8 543,6 557,5 571,7 586,1 600,8 615,7 631,1 644,9 662,5 680,6 698,9 717,5 736,6 756,2 740,1 758,0 776,1 794,7 813,5 832,6 851,9

444,7 455,9 467,3 478,9 490,8 502,9 515,2 493,4 505,8 518,4 531,3 544,4 557,9 571,5 538,2 551,5 565,1 579,0 593,2 607,6 622,4 633,3 650,1 667,5 685,1 703,1 721,5 740,2 738,8 756,6 774,6 792,8 811,4 830,3 849,4

329,0 340,0 351,2 362,6 374,2 386,0 398,0 367,0 379,2 391,7 404,4 417,3 430,4 443,8 400,5 413,7 427,2 440,9 454,8 469,0 483,4 489,7 506,1 522,9 540,0 557,2 575,0 592,9 558,3 574,8 591,5 608,4 625,6 642,9 660,5

125,6 126,7 127,7 128,8 129,9 131,1 132,3 137,6 138,7 139,9 141,0 142,3 143,5 144,8 149,2 150,4 151,6 152,8 154,0 155,3 156,7 167,5 169,3 171,2 173,2 175,2 177,3 179,4 182,0 183,6 185,4 187,1 189,0 190,9 192,8

310,5 321,1 332,0 343,0 354,2 365,6 377,2 346,4 358,3 370,3 382,6 395,0 407,7 420,6 378,3 391,1 404,2 417,4 430,9 444,6 458,6 461,7 477,5 493,7 510,1 526,8 543,9 561,3 539,0 555,3 571,8 588,6 605,6 622,8 640,2

138,9 139,9 140,9 142,0 143,1 144,3 145,4 152,3 153,3 154,4 155,6 156,7 158,0 159,2 165,3 166,4 167,5 168,7 169,9 171,1 172,5 183,3 185,0 186,9 188,7 190,7 192,8 194,9 201,1 202,7 204,3 206,1 207,9 209,8 211,7

291,1 301,4 311,8 322,4 333,2 344,2 355,3 324,9 336,3 347,9 359,7 371,7 384,0 396,4 355,1 367,4 380,0 392,8 405,8 419,0 432,5 432,4 447,5 463,1 478,9 495,1 511,5 528,2 516,7 532,9 549,3 565,8 582,6 599,7 616,9

153,6 154,5 155,5 156,5 157,6 158,7 159,9 168,5 169,5 170,5 171,6 172,7 173,9 175,1 183,1 184,1 185,1 186,2 187,4 188,6 189,9 200,9 202,6 204,3 206,2 208,1 210,0 212,1 222,1 223,7 225,3 227,0 228,8 230,6 232,5

509B – 06/04 C– pag. 27/40

Unit size

101.2

114.2

125.2

142.2

Evaporator leaving water temperature °C

Total heat recovery ratings Energyplus B SE 101.2 ÷ 142.2 XXN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

HEAT RECOVERY LEAVING WATER TEMPERATURE °C 40 Cooling Power capac. input (kW) (kW)

351,5 363,2 375,1 387,2 399,4 412,0 424,7 404,9 418,6 432,6 446,9 461,4 476,2 491,3 443,5 458,4 473,6 489,0 504,8 520,8 537,2 523,6 541,0 558,7 576,7 595,2 613,8 632,8

114,1 115,1 116,2 117,4 118,5 119,7 120,9 126,1 127,3 128,5 129,8 131,2 132,5 133,9 136,7 138,0 139,3 140,7 142,1 143,5 145,0 154,2 156,1 158,1 160,2 162,4 164,5 166,9

509 B – 06/04 C – pag. 28/40

Heat Cooling Power recov. capac. input (kW) (kW) (kW)

Heat recov. (kW)

465,6 478,3 491,3 504,6 517,9 531,7 545,6 531,0 545,9 561,1 576,7 592,6 608,7 625,2 580,2 596,4 612,9 629,7 646,9 664,3 682,2 677,8 697,1 716,8 737,0 757,6 778,4 799,7

459,4 471,8 484,4 497,1 510,2 523,5 537,0 522,7 537,1 551,9 567,0 582,4 598,0 614,0 571,4 587,0 603,0 619,3 636,0 653,0 670,2 664,2 682,9 701,9 721,5 741,3 761,5 782,1

453,8 465,7 477,8 490,2 502,8 515,6 528,7 676,3 691,9 707,9 724,2 741,0 757,9 775,3 563,0 578,1 593,6 609,3 625,4 641,8 658,5 651,3 669,2 687,6 706,4 725,5 745,1 765,1

448,5 460,0 471,7 483,5 495,6 508,1 520,7 507,7 521,0 534,7 548,7 562,9 577,5 592,3 555,4 569,8 584,7 599,7 615,2 631,0 647,2 638,7 656,1 673,8 691,8 710,3 729,0 748,3

333,4 344,7 356,2 367,8 379,7 391,8 404,1 383,6 396,8 410,3 424,1 438,2 452,4 467,0 420,4 434,8 449,5 464,4 479,7 495,2 511,0 496,0 512,9 530,0 547,4 565,2 583,3 601,6

126,0 127,1 128,2 129,3 130,5 131,7 132,9 139,1 140,3 141,6 142,9 144,2 145,6 147,0 151,0 152,2 153,5 154,9 156,3 157,8 159,2 168,2 170,0 172,0 174,0 176,1 178,3 180,5

314,5 325,4 336,4 347,7 359,2 370,8 382,7 522,7 537,1 551,9 567,0 582,4 598,0 614,0 396,2 410,1 424,3 438,7 453,4 468,4 483,6 467,3 483,5 500,0 516,9 534,0 551,5 569,2

139,3 140,3 141,4 142,5 143,6 144,8 146,0 153,6 154,8 156,0 157,2 158,6 159,9 161,3 166,8 168,0 169,3 170,6 172,0 173,4 174,9 183,9 185,7 187,6 189,5 191,6 193,6 195,9

294,6 305,1 315,8 326,6 337,6 348,9 360,3 338,1 350,3 362,8 375,6 388,6 401,8 415,3 371,0 384,3 398,0 411,8 426,0 440,4 455,1 437,3 452,9 468,8 484,9 501,5 518,3 535,3

153,9 154,9 155,9 156,9 158,0 159,2 160,4 169,6 170,7 171,9 173,1 174,3 175,7 177,0 184,4 185,5 186,7 187,9 189,2 190,6 192,1 201,4 203,2 205,0 206,9 208,8 210,8 213,0

Unit size

101.2

114.2

125.2

142.2

165.2

Evaporator leaving water temperature °C

Total heat recovery ratings Energyplus B XE 101.2 ÷ 165.2 ST/LN/XN

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

HEAT RECOVERY LEAVING WATER TEMPERATURE °C 40 Cooling Power capac. input (kW) (kW)

355,7 367,6 379,7 392,0 404,6 417,4 430,4 404,9 418,6 432,6 446,9 461,4 476,2 491,3 443,5 458,4 473,6 489,0 504,8 520,8 537,2 523,6 541,0 558,7 576,7 595,2 613,8 632,8 583,5 600,5 617,7 635,1 652,9 670,8 689,1

114,5 115,5 116,7 117,8 119,0 120,2 121,4 126,1 127,3 128,5 129,8 131,2 132,5 133,9 136,7 138,0 139,3 140,7 142,1 143,5 145,0 154,2 156,1 158,1 160,2 162,4 164,5 166,9 165,7 167,4 169,3 171,1 173,1 175,1 177,2

Heat Cooling Power recov. capac. input (kW) (kW) (kW)

Heat recov. (kW)

470,2 483,1 496,4 509,8 523,6 537,6 551,8 531,0 545,9 561,1 576,7 592,6 608,7 625,2 580,2 596,4 612,9 629,7 646,9 664,3 682,2 677,8 697,1 716,8 737,0 757,6 778,4 799,7 749,2 767,9 787,0 806,2 826,0 845,9 866,3

463,6 476,2 489,0 502,1 515,3 529,0 542,8 522,7 537,1 551,9 567,0 582,4 598,0 614,0 571,4 587,0 603,0 619,3 636,0 653,0 670,2 664,2 682,9 701,9 721,5 741,3 761,5 782,1 749,3 767,8 786,7 805,8 825,3 845,1 865,2

457,4 469,5 481,9 494,6 507,4 520,5 533,9 514,9 528,9 543,1 557,6 572,5 587,6 603,0 563,0 578,1 593,6 609,3 625,4 641,8 658,5 651,3 669,2 687,6 706,4 725,5 745,1 765,1 748,5 766,9 785,5 804,6 823,8 843,3 863,2

451,8 463,5 475,3 487,5 499,8 512,5 525,3 507,7 521,0 534,7 548,7 562,9 577,5 592,3 555,4 569,8 584,7 599,7 615,2 631,0 647,2 638,7 656,1 673,8 691,8 710,3 729,0 748,3 746,9 764,9 783,4 802,1 821,2 840,4 860,0

337,2 348,7 360,4 372,3 384,4 396,8 409,4 383,6 396,8 410,3 424,1 438,2 452,4 467,0 420,4 434,8 449,5 464,4 479,7 495,2 511,0 496,0 512,9 530,0 547,4 565,2 583,3 601,6 566,5 583,3 600,4 617,7 635,3 653,1 671,2

126,4 127,5 128,6 129,8 130,9 132,2 133,4 139,1 140,3 141,6 142,9 144,2 145,6 147,0 151,0 152,2 153,5 154,9 156,3 157,8 159,2 168,2 170,0 172,0 174,0 176,1 178,3 180,5 182,8 184,5 186,3 188,1 190,0 192,0 194,0

317,8 328,9 340,2 351,7 363,4 375,3 387,4 361,3 374,1 387,1 400,4 413,9 427,7 441,7 396,2 410,1 424,3 438,7 453,4 468,4 483,6 467,3 483,5 500,0 516,9 534,0 551,5 569,2 546,7 563,4 580,3 597,6 614,9 632,5 650,4

139,6 140,6 141,7 142,9 144,0 145,2 146,5 153,6 154,8 156,0 157,2 158,6 159,9 161,3 166,8 168,0 169,3 170,6 172,0 173,4 174,9 183,9 185,7 187,6 189,5 191,6 193,6 195,9 201,8 203,5 205,2 207,0 208,9 210,8 212,8

297,6 308,3 319,1 330,2 341,4 352,9 364,5 338,1 350,3 362,8 375,6 388,6 401,8 415,3 371,0 384,3 398,0 411,8 426,0 440,4 455,1 437,3 452,9 468,8 484,9 501,5 518,3 535,3 524,1 540,5 557,3 574,2 591,5 608,8 626,4

154,2 155,2 156,2 157,3 158,4 159,6 160,8 169,6 170,7 171,9 173,1 174,3 175,7 177,0 184,4 185,5 186,7 187,9 189,2 190,6 192,1 201,4 203,2 205,0 206,9 208,8 210,8 213,0 222,8 224,4 226,1 227,9 229,7 231,6 233,6

509B – 06/04 C– pag. 29/40

Unit size

101.2

114.2

125.2

142.2

165.2

Evaporator leaving water temperature °C

Total heat recovery ratings Energyplus B HA 101.2 ÷ 165.2

4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10 4 5 6 7 8 9 10

HEAT RECOVERY LEAVING WATER TEMPERATURE °C 40 Cooling Power capac. input (kW) (kW)

346,7 358,1 369,7 381,4 393,4 405,6 418,0 391,7 404,6 417,8 431,2 444,8 458,7 472,8 427,6 441,6 455,9 470,3 485,1 500,1 515,3 515,5 532,5 549,9 567,5 585,5 603,7 622,4 574,4 591,0 608,3 626,5 645,0 663,5 682,3

113,6 114,7 115,7 116,8 117,9 119,1 120,2 124,9 126,0 127,2 128,4 129,6 130,9 132,2 135,3 136,5 137,7 139,0 140,3 141,6 143,0 153,3 155,1 157,1 159,2 161,2 163,4 165,6 164,7 166,5 168,3 170,2 172,2 174,3 176,4

509 B – 06/04 C – pag. 30/40

Heat Cooling Power recov. capac. input (kW) (kW) (kW)

Heat recov. (kW)

460,3 472,8 485,4 498,2 511,3 524,7 538,2 516,6 530,6 545,0 559,6 574,4 589,6 605,0 562,9 578,1 593,6 609,3 625,4 641,7 658,3 668,8 687,6 707,0 726,6 746,7 767,1 788,0 739,1 757,5 776,6 796,7 817,2 837,8 858,7

454,6 466,7 478,9 491,4 504,1 517,1 530,3 509,7 523,3 537,1 551,4 565,8 580,6 595,5 555,7 570,4 585,4 600,8 616,2 632,2 648,3 656,0 674,2 692,9 711,9 731,2 751,0 771,2 739,5 757,7 776,2 795,2 815,5 836,0 856,7

449,4 461,0 472,9 485,0 497,3 509,9 522,6 503,2 516,4 529,8 543,5 557,5 571,7 586,2 549,0 563,2 577,7 592,5 607,5 623,0 638,5 643,8 661,3 679,3 697,6 716,3 735,5 754,8 739,1 757,1 775,5 794,0 812,9 833,1 853,7

444,7 455,9 467,3 478,9 490,8 502,9 515,2 497,4 510,0 522,9 536,1 549,6 563,3 577,2 542,9 556,6 570,5 584,8 599,3 614,0 629,2 632,1 648,9 666,3 683,9 702,0 720,3 739,0 737,8 755,6 773,6 792,0 810,7 829,6 849,2

329,0 340,0 351,2 362,6 374,2 386,0 398,0 371,6 384,1 396,8 409,8 423,0 436,5 450,1 406,0 419,5 433,3 447,4 461,6 476,2 490,9 488,6 505,1 521,8 538,8 556,2 573,8 591,8 557,6 574,1 590,9 608,1 626,4 644,9 663,5

125,6 126,7 127,7 128,8 129,9 131,1 132,3 138,1 139,2 140,3 141,6 142,8 144,1 145,4 149,7 150,9 152,1 153,4 154,6 156,0 157,4 167,4 169,1 171,1 173,1 175,0 177,2 179,3 181,9 183,6 185,3 187,1 189,1 191,1 193,2

310,5 321,1 332,0 343,0 354,2 365,6 377,2 350,6 362,7 375,0 387,5 400,3 413,2 426,4 383,3 396,4 409,7 423,3 437,1 451,2 465,4 460,6 476,4 492,5 509,0 525,7 542,8 560,1 538,1 554,5 571,2 588,0 605,1 623,3 641,8

138,9 139,9 140,9 142,0 143,1 144,3 145,4 152,6 153,7 154,8 156,0 157,2 158,5 159,8 165,7 166,8 168,0 169,2 170,4 171,8 173,1 183,2 184,9 186,8 188,7 190,6 192,7 194,7 201,0 202,6 204,3 206,0 207,8 209,8 211,9

291,1 301,4 311,8 322,4 333,2 344,2 355,3 328,6 340,2 352,0 364,1 376,4 388,9 401,6 359,5 372,1 385,0 398,1 411,4 424,9 438,7 431,3 446,5 462,1 477,9 494,0 510,3 527,1 515,8 532,0 548,4 565,1 582,0 599,1 616,7

153,6 154,5 155,5 156,5 157,6 158,7 159,9 168,8 169,8 170,9 172,0 173,2 174,4 175,6 183,4 184,5 185,5 186,7 187,9 189,1 190,5 200,8 202,5 204,2 206,0 208,0 209,9 211,9 222,0 223,6 225,2 226,9 228,7 230,5 232,5

Partial heat recovery ratings Energyplus B 101.2 ÷ 165.2 HEAT RECOVERY LEAVING WATER TEMPERATURE °C Unit size

114.2 125.2 142.2 165.2

Heating capacity (kW)

Evaporator leaving water temp. 7°C ∆ T 5°C – ambient temperature 35°C

101.2

Water pump diagram

Pump lift (kPa)

350 300 250

200 A 150 10

Water flow rate (l/s) Motor power

AMPS

101.2 - 165.2 SE 101.2 - 125.2 XE

7,5

142.2 - 165.2 XE

9,2

Pump type

Unit model

A B

Electric protection

Voltage

14,6

IP55

400/3/50

17,5

IP55

400/3/50

V / Hz

Note: to have the available hydraulic lift subtract the evaporator pressure drop to the pump lift.

509B – 06/04 C– pag. 31/40

Evaporator pressure drop â&#x20AC;&#x201C; Energyplus B SE ST, CN, LN, XN, XXN; Energyplus B XE ST, CN, LN, XN; Energyplus B HA

SE ST/LN/XN 142.2 - 165.2 XE ST/LN/XN 114.2 - 125.2 SE XXN 114.2 - 125.2

XE ST/LN/XN 142.2 - 165.2 SE XXN 142.2 HA 114.2 - 125.2 SE ST/LN/XN 101.2 HA 101.2

HA 142.2 - 165.2

SE ST/LN/XN 114.2 - 125.2 SE XXN 101.2 XE ST/LN/XN 101.2

Pressure drop (kPa) (kPa) Perdita di carico

Water flow rate (l/s) Portata acqua (l/s)

509 B â&#x20AC;&#x201C; 06/04 C â&#x20AC;&#x201C; pag. 32/40

Total heat recovery pressure drop â&#x20AC;&#x201C; Energyplus B SE ST, CN, LN, XN, XXN; Energyplus B XE ST, CN, LN, XN; Energyplus B HA

Perdita di carico (kPa) Pressure drop (kPa)

Portata acqua Water flow rate (l/s) (l/s)

509B â&#x20AC;&#x201C; 06/04 Câ&#x20AC;&#x201C; pag. 33/40

Partial heat recovery pressure drop â&#x20AC;&#x201C; Energyplus B SE ST, CN, LN, XN, XXN; Energyplus B XE ST, CN, LN, XN; Energyplus B HA

' &

$% "# !

509 B â&#x20AC;&#x201C; 06/04 C â&#x20AC;&#x201C; pag. 34/40

Dimensions Energyplus B SE, XE, HA 101.2 ÷ 165.2 ST – CN – LN – XN – XXN A

Energyplus B SE Units ST-CN-LN-XN Energyplus B SE 101.2 – 114.2 – 125.2 Energyplus B SE 142.2 – 165.2 XXN Energyplus B SE 101.2 Energyplus B SE 114.2 – 125.2 – 142.2

Energyplus B XE Units ST-CN-LN-XN Energyplus B XE 101.2 Energyplus B XE 114.2 – 125.2 Energyplus B XE 142.2 – 165.2

Energyplus B HA Units ST-CN Energyplus B SE 101.2 Energyplus B SE 114.2 – 125.2 Energyplus B SE 142.2 – 165.2

Width – B (mm)

Height (mm)

3460 4355

2230 2230

2520 2520

4355 5255

2230 2230

2520 2520

Length – A (mm)

Length – A (mm) 3460 4355 5255

Width – B (mm)

Height (mm)

2230 2230 2230

2520 2520 2520

Width – B (mm)

Height (mm)

2230 2230 2230

2520 2520 2520

509B – 06/04 C– pag. 35/40

Technical Specification for Energyplus B – Air Cooled Screw Chiller To supply and install, where specified in the project n° ………. unit(s) air cooled water chiller with cooling capacity of ………. kW, to cool ………. l/sec. of water from ………. °C to ………. °C working with ………. °C ambient temperature. The unit should work with electricity at ………. V, 3ph, 50Hz. The electrical power absorbed should not exceed ………. kW. The units COP will be at least ………. at the working conditions of the project. Part load COP will be at least ………. at the working conditions of the project. The units will have 2 independent refrigerant circuits, and the respective electronic microprocessor will allow the starting of the compressors. Each chiller will be factory assembled on a robust baseframe made of zinc coated steel, protected by an epoxy paint. The unit will be tested at full load in the factory at the nominal working conditions and water temperatures. Before shipment a full test will be held to avoid any losses. Chiller will be delivered to the job site completely assembled and charged with refrigerant and oil. Comply with the manufacturer instructions for rigging and handling equipment. GENERAL All units should be designed and manufactured in accordance with applicable selections of the following which are equivalent to American Air-conditioning industry applicable codes: Rating of chillers Construction of pressure vessel Electrical codes Safety Codes Manufacturing Quality Stds

EN 12055 TUV Standards (on request) IEC 204-1 CEI 44-5 Elect. & Safety Codes CEI-EN 60204–1 Codes ISO 9001:2000

REFRIGERANT Only HFC 134a will be accepted UNIT DESCRIPTION Each chiller consist of multiple semi-hermetic rotary screw compressor, direct expansion avaporator, aircooled condenser section, control system and all components necessary for safe and controlled unit operation. NOISE LEVEL AND VIBRATIONS Sound pressure level at 1 meter distance in free field, semispheric conditions, shall not exceed ………dBA. The sound pressure levels must be rated in accordance to ISO 3744. Other types of rating unacceptable. Vibration level should not exceed 2 mm/s. DIMENSIONS Unit length shall not exceed ………. mm, unit width shall not exceed ………. mm, unit height shall not exceed ………. mm. CHILLER COMPONENTS Compressors The compressors shall be field serviceable, semi-hermetic, single-screw type with one main helical rotor meshing with two opposed gaterotor. If a twin-screw compressor is used, the manufacturer shall provide an external 5-year part and labor warranty covering all moving parts due to the large bearing load inherent with this design. The two exactly opposed gaterotors create two exactly opposed compression cycles which results in balanced forces acting on the compressor. The gaterotors will be constructed of a carbon impregnated engineered composite material. The gaterotor supports will be constructed of cast iron. The oil injection shall be used for these compressors in order to get high COP also at high condensing pressure and low sound pressure levels in each load condition.

509 B – 04/11 B – pag. 36/40

Refrigerant system differential pressure shall provide oil flow throught service replaceble, 0.5 micron, full flow, cartridge type oil filter internal to compressor. Filter bypass or oil pump not acceptable. The compressor’s oil cooling must be realized by liquid injection. External dedicated heat exchanger and additional piping to carry the oil from the compressor to heat exchanger and viceversa will be not accepted. The compressor shall be provided with an integrated, high efficiency, oil separator and with built-in oil filter. The compressor shall be direct electrical drive, without gear transmission between the screw and the electrical motor. The motor’s compressor shall be designed for star/delta. Soft start should be available as option. The compressor casing shall be provided with ports to realize economized refrigerant cycles. Shall be present two thermal protection realized by a thermistor for high temperature protection to motor and a thermistor for discharge gas high temperature protection. The compressor shall be provided with an automatic spring return of capacity control valve to the minimum load position to ensure compressor starting always at minimum motor load. Evaporator The units shall be supplied with shell and tubes counter-flow evaporator single refrigerant pass. It will be direct expansion with refrigerant inside the tubes and water outside (shell side) with carbon steel tube sheets, with straight copper tubes that are spirally wound internally for higher efficiencies, expanded on the tube plates. The external shell, shall be linked with an electrical heater to prevent freezing to -28 C ambient temperature, commanded by a thermostat and shall be insulated with flexible, closed cell polyurethane insulation material. The evaporator will have 2 circuits, one for each compressor and shall be single refrigerant pass. If a plate to plate heat exchanger is used, the manufacturer shall provide to furniture an adequate buffer tank to avoid frequently compressors star-stop and to allow a good evaporator leaving water temperature control. The manufacturer also shall provide to furniture a feed water line filter, a monitoring system of the refrigerant pressure drop inside the plat to plate heat exchanger and a system to protect the component from hydraulic pressure waves caused by water circulation pump stop. Evaporator is manufactured in accordance to PED approval. Condenser coil The condenser coils are constructed with internally enchanced seamless copper tubes having a "W" configuration and arranged in a staggered row pattern and mechanically expanded into lanced and rippled aluminium fins with full fin collars for higher efficiencies. The space between the fins are given by a collar that will increase the surface area in connection with the tubes, protecting them from ambient corrosion. The coils will have an integral subcooler circuit which provides sufficient subcooling to effectively eliminate the possibility of liquid flashing and increase the unit' s efficiency of 5-7% without an increase in power absorbed, and the surface area will be designed in order to have an air velocity not higher than 2.8 m/sec. Condenser fans The fans used in conjunction with the condenser coils, shall be helical type with aerofoil blades for higher efficiencies and lower noise. Each fan shall be equipped with a heavy-gauge fan guard. The air discharge shall be vertical and each fan must be coupled to the electrical motor, supplied as standard to IP54 and capable to work to ambient temperatures of -40 C to +55 C. There is also an accident protection within the motors. Refrigerant circuit The unit must have refrigerant circuits completely independent of each other with one compressor per circuit.

509B – 06/04 C– pag. 37/40

Each circuit shall include an: electronic expansion valve, compressor discharge shut-off valve, a liquid line shut-off valve with charging connection, replaceable core filter-drier, sight glass with moisture indicator and insulated suction line. Suction line shut-off valve should be available as option. Regulation of cooling capacity Each unit will have a microprocessor for the control of compressor slide valve’s position (2 slide valves, one for each compressor’s cycles). The slides shall have a stepless motion that allows a unit’s operation with infinitely variable capacity control down to 12,5% (2 compressors) of the cooling capacity. The chiller shall be capable of stable operation to a minimum of 12,5% of full load without hot gas bypass. Step unloading unacceptable because of evaporator leaving water temperature fluctuation and low compressor’s efficiency at partial load. The system shall stage the unit based on the leaving water temperature. Condensation control The units will be provided with an automatic control for condensing pressure which ensures the working at low external temperatures down to +10 C, because of the ON/OFF of the condenser fans, to maintain condensing pressure. Fan speed control, to allow unit’s operation with very low ambient temperature, should be available as option. Control panel Field power connections, control interlock terminals, and unit control system should be centrally located in an electric panel (IP 54). The Power components and control equipment shall be separately mounted in different compartments of the control panel. The Compressor starting method will be star/delta, with an option for Softstart. Power and starting controls should include fuses and contactors for the compressor and fan motor windings. Operating and safety controls should include energy saving; emergency stop switch; thermal overload protection for each compressor motor; high and low pressure cut-out switch (for each refrigerant circuit); anti-freeze thermostat; cut-out switch for each compressor. All of the information regarding the unit shall be shown on a display with a built-in calendar and clock that will provide unit scheduling throughout the year. The following features and functions shall be included: - resetting chilled water temperature by controlling the return water temperature or by a remote 420 mA DC signal: - soft load function to prevent the system from operating at full load during the chilled fluid pulldown period; - password protection of critical parameters of control; - discharge pressure control through intelligent cycling or speed variation of the condenser fans. - start-to-start and stop-to-start timers to provide minimum compressor off-time with maximum motor protection; - communication capability with a PC or remote monitoring; - lead-lag selection by manual or automatically by circuit run hours; - double set point for brine unit version; - scheduling via internal time clock to allow programming of a yearly start-stop schedule accommodating weekends and holidays.

509 B – 06/04 C – pag. 38/40

Display Capabilities The controller as a minimum shall be capable of monitoring and displaying the following data: Operating Conditions Entering Evaporator fluid Temp. Leaving Evaporator fluid Temp. Operating Chilled Fluid Setpoint Oil / Discharge gas Press. (per comp.) Condensing Press. (per comp.) Evaporator Press. (per comp.) Unit Enabled Compressor Enabled Water Setpoint Reset Demand Limit or Current Limit (Site Selectable)

Alarms Phase Monitor Freeze Protection Evaporator Flow Low Gas Pressure (per comp.) Transition Fault, (per comp.) Oil Diff. press. (per comp.) Low Oil Pressure (per comp.) High Gas Pressure Trip (per comp.) Motor Overload, (per comp.) Transducer faults Units Off-Line External fault Processor Faults Maintenance requirements

Standard Customer Interfaces `The controller as a minimum shall be capable of providing the following interlocks: Chiller Enable Signal: Digital Input, contact must be capable of handling 110 Volts, 50HZ, 1 Amp. Chiller Common Fault: Volt free, normally open, digital contact, Must be capable of switching 250 V, 50 HZ, 10 Amp. Pump Enable Signal:: Volt free, normally open, digital contact, Must be capable of switching 250 V, 50 HZ, 10 Amp. Setpoint Override:: Demand Limit:: Or Current Limit::

4 – 20 mA DC analoque input signal. 4 – 20 mA DC analoque input signal. 4 – 20 mA DC analoque input signal.

Optional Customer Interfaces Compressor Running Signals: Volt free, normally open, digital contact, Capable of switching 250 V, 50 HZ, 10 Amp.

Optional High Level Communications Interface Using ModBus, Lonworks or Bacnet protocols

509B – 06/04 C– pag. 39/40

We reserve the right to make changes in design and construction at any time without notice, thus the cover picture is not binding.

McQuay partecipa al programma di Certificazione Eurovent. I prodotti interessati figurano nella Guida Eurovent dei Prodotti Certificati.

McQuay is participating in the Eurovent Certification Programme Product are as listed in the Eurovent Directory of Certified Products

McQuay Italia S.P.A. S.S. Nettunense, km 12+300 – 00040 Cecchina (Roma) Italia – Tel. (06) 937311 – Fax (06) 9374014 – Email: info@mcquayeurope.com www.mcquayeurope.com

509 B – 06/04 C – pag. 40/40