Chiller Water Liebert Hiross Brochure. 3i4a16

Precision Cooling for Business-- Critical Continuity

Liebert Hiross HPC--L

Liebert Hiross HPC--L -- PD -- 273510 -- 08.02.2007

Air Cooled Chillers with Double Screw Compressors

PRODUCT DOCUMENTATION

Liebert Hiross HPC-- L Liebert Hiross HPC---W

The water chiller market has met in the latest years stricter and stricter challenges due to the industrial society evolution and to technological developments, even if it is experiencing a full maturity phase. To meet the most different requirements, depending on the several application places, the modern water chiller must thus be highly flexible, so as to suit to the surrounding environment. Here comes Liebert Hiross HPC---L, the innovative range of air---cooled water chillers by Emerson Network Power, covering a power range from 700 to 1600 kW. Over 60 models, 4 sound emission versions, one chiller and one freecooling configurations, two types of environment---friendly refrigerants, a wide range of options and accessories --- such as economizer and electronic expansion valve, just to name two --- Liebert Hiross HPC---L can be a leader in the chiller world, both in its natural position for brand belonging --- the technological market --- and in other sectors such as high power commercial and industrial sectors. Besides its high flexibility Liebert Hiross HPC---L --- loyal to the tradition by Emerson Network Power --- is featured by efficiencies among the highest on the market, which are more and more needed to face the challenges of energy saving and environment protection of today, as well as by the lowest sound emissions in its category, above all in the Quiet version. Structure sturdiness and high reliability complete the features of the whole range.

Liebert Hiross HPC---L Solutions Committed to your Business

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Liebert Hiross HPC-- L Liebert Hiross HPC---W

Contents

The Quality Management System of Emerson Network Power S.r.l. High Performance Air Conditioning has been approved by Lloyd’s Quality Assurance to the quality management system standard ISO 9001:2000 The product conforms to European Union directives 98/37/CE (89/392/CEE; 91/368/CEE; 93/68/CEE), 89/336/CEE; 73/23/CEE; 97/23/CE.

1

Features and Benefits

2

Model Number Description

3

Operating Range

4

Technical Data

5

Mechanical Specifications

6

Controls

7

Cooling Capacity Performance

8

Hydraulic Features and Performance Adjustment Factors

9

Sound Levels

10

Electrical Data

11

Application Considerations

12

Dimensional Data

13

Refrigerant Circuit

14

Hydraulic Circuit

Units are supplied complete with a test certificate and conformity declaration and control component list. Liebert Hiross HPC--L units are CE marked as they comply with the European directives concerning mechanical, electrical, electromagnetic and pressure equipment safety.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

1

Features and Benefits

Features and Benefits

Integration with Indoor Air Conditioners A special working mode can be set up in combination with Emerson Network Power HPAC indoor units to obtain the ”Supersaver’ system, that enhances the energy saving capabilities and thus optimises the SEER (Seasonal Energy Efficiency Ratio) of the system. The information on the cooling needs of the air conditioners is available to the Liebert Hiross HPC ---L units, that will manage their resources (compressors and free cooling) in the most efficient way in order to save additional energy. This solution does not require any modification, mechanical or electrical thus avoiding additional components and regulation algorithms in the units which could undermine the reliability of the system.

@ Connectivity When the room units are equipped with the same type of control system Emerson Network Power (Microface and Hiromatic Evolution), it is possible to maximise the energy savings and improve the total operation management. The solution is @connectivity, which is a highly sophisticated way to let the system components (the Air --Conditioners as well as the Liebert Hiross HPC ---L units, Chiller and Freecooling executions) talk to each other. The @connectivity plug ---in allows the setting of different working modes for different situations, such as: D higher water temperature in low load operation (energy saving); D lower water temperature for dehumidification (better performance); D special ”night” Setpoint (energy saving & noise reduction); D lower water temperature if one or more Air Conditioners fail (keep capacity in emergency situations); D . . . and much more! To add @connectivity function to your system, it is simply necessary: To build up an Hironet connection between the room units and the Liebert Hiross HPC ---L units. The network can be only 1 (if the distance and the number of units allow this) or it can be split in several networks. Each Hironet needs to be connected to one Hirolink. Hirolink can be connected directly to the computer where @connectivity is installed. As alternative it can be connected, with a special interface, via your company network (Local Area Network). On @connectivity it is possible to define the rules that you want your system to respect. It will be then up to the web capabilities to allow the view and control of your system from any PC of your Local area network (provided that @connectivity PC is connected on the LAN) or even. If you have a connection to Internet and your system is open to external access, you will have the possibility to browse and control your system via Internet.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits Reliability and Low Environmental Impact Reliability The Liebert Hiross HPC ---L series is equipped with two semi ---hermetic screw compressors which represent state ---of ---the ---art technology in this sector. They have been designed and optimised for air ---cooled water chillers within air conditioning applications. The high volumetric efficiency ensures excellent performance of the Liebert Hiross HPC ---L units, not only at full load operation but with partial loads too, thanks to the continuous capacity control and to the sliding valves, modifying the delivery gas outlet clearance. Extremely low noise operation and the absence of vibrations aid the installation of the unit in city sites requiring strict noise limits. The wide operating range, bearing lubrication, component oversizing, absence of vibrations and few moving parts, together with the resistance to liquid slugging and compressor electronic control integrated with the machine microprocessor enhance the well--known characteristics of operating reliability and long life typical of this compressors type. Liebert Hiross HPC ---L with two independent refrigerating circuits, two electric boards with independent supplies (each one interlocked with its own refrigerating circuit), two microprocessor boards --- each one installed on its electric control board and even operating independently of each other --- features the highest inner redundancy and thus the highest system reliability. All Liebert Hiross HPC ---L units are run tested at the factory before shipment.

Fewer moving parts Unlike reciprocating compressors, screw compressors do not have pistons, connecting rods, suction and discharge valves or a mechanical oil pump. Fewer moving parts lead to greater reliability and a longer life.

High outdoor temperature The oversizing of heat axchangers and the wide operating range of the screw compressors permit the use of Liebert Hiross HPC ---L units in high temperature environments as well, up to 46ûC at 100% full load. In the version with R407C, only, the device HTD (High Temperature Device), keeping the oil temperature within a safe range, allows each compressor to operate up to its limits without affecting either its reliability or its internal components (bearings). In all versions, both with R407C and R134a, if the limits are exceeded, the microprocessor reduces the load of the compressor to 50%, thus allowing continuous operation.

Continuous capacity control Precise and stable control of the supply water temperature over the complete range of operating conditions is granting by the continuous capacity control. As the demand for load increases or decreases the compressor sliding valves modulate the capacity to match the required cooling load. This leads to a drastic reduction of cycling rates in comparison with a step capacity control and therefore, higher reliability.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits Resistance to liquid slugging The robust design of the screw compressors can bear/withstand liquid coolant quantities in suction that would severely damage the valves, the connecting rods and the cylinders of the reciprocating compressors.

Start ---up management The specific features of Liebert Hiross HPC ---L screw compressors and the integrated microprocessor control functions permit unloaded start---up management, with pressure equalisation, thus reducing stress and enhancing the overall reliability.

Unequalled efficiency and energy saving The use of semi ---hermetic screw compressors of the latest generation; shell and tube evaporators selected for R134a and R407C application; aerodynamic profiled blade fans with high efficiency nozzles and continuous speed regulation; large surface W---shaped condenser coils ensure the achievement of unequalled efficiency figures.

Freecooling module

Reduced space requirements in comparison with a conventional chiller plus a dry ---cooler, are obtained through the freecooling execution’s compact design and the reduction of the compressors working hours offers exceptional saving both in the long and short term.

Annual Power consumption (kWh)

A three ---way valve arrangement permits the coolant to be diverted via the additional heat exchangers before being fed into the cooling evaporator. This means that even if the outside ambient temperature is not low enough to provide the complete cooling load, a significant contribution to the running costs of the system can be made whenever the ambient temperatures falls below the coolant inlet temperature.

VENICE 80,000 70,000 60,000 50,000 40,000 30,000 20,000 10,000 0 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Outdoor temperature (oC)

HAMBURG Annual Power consumption (kWh)

The execution with built---in free cooling module, allows Liebert Hiross HPC ---L to take advantage of low outdoor air temperatures in the water cooling process in order to save energy, by avoiding compressors running, besides increasing significantly the compressor life.

80,000 70,000 60,000 50,000 40,000 30,000 20,000 10,000 0 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 Outdoor temperature (oC)

Annual energy consumption (Chiller) Annual energy consumption, chiller plus free cooling module

The different strategies adopted by the proprietary microprocessor control in managing the various components, fans --- compressors --- regulation valves, and operating modes, mechanical and/or free cooling, together with the compressors’ continuous partialisation ensure typical energy savings greater than 30%.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits Seasonal efficiency The freecooling execution finds its best application in combination with the Supersaver system which regulates the coolant temperatures according to the variation of the thermal load, increasing the numbers of hours during which free cooling is possible. The percentage of energy saving can thus be greater than 35%. Annual power consumption. Comparison among the systems:

Energy consumption (MWh)

120 100 40 60 40 20 0

Jan

-

Feb

Mar

Apr

May

Jun

Jul

Aug

Sep

Oct

Nov

Dec

Traditional Chiller Freecooling execution Freecooling execution + Supersaver

Economiser circuit The operation with economizer is a convenient and efficient method to increase the cooling capacity and the COP. This device is particularly advisable for the conditioning applications where the condensing temperatures are high or medium. By this operation system, the liquid refrigerant is cooled by a heat exchanger (sub ---cooler). When a sub ---cooler is used, some of the refrigerant mass (ECO flow rate) is separated from the condenser mass after the condenser (4). This ECO mass is thus expanded at an intermediate pressure (t ms). The ECO mass evaporates inside the sub ---cooler and enters the compressor through the economizer opening. The evaporator mass flow rate is sub ---cooled by the exchanger at a lower liquid temperature (4u). The intermediate pressure at the economizer changes depending on the type of compressor, on the operating conditions (evaporations and condensation temperatures) and on the ECO flow rate. The additional sub ---cooling of the liquid involves a significant increase of the cooling capacity. From certain operating conditions, the electric absorption by the compressor increases less proportionally than the cooling capacity (improving the machine efficiency), as the compression process occurs at a better efficiency level due to the positive contribution of the fresh gas portion sucked

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits through the ECO opening. A further feature of the economizer circuit in the Liebert Hiross HPC ---L units is the slide valve for choking the compressor, equipped with an integrated economizer channel; this ensure the above described benefits, due to the additional sub ---cooling, independently of the machine load conditions and thus of the position of the slide valve for the compressor choking.

Chiller Load 100

75 9 8 7 6 5

100

Load

75 9 8 7 6 5

Outlet water temperature (°C)

The different strategies of the microprocessor control by Emerson Network Power for the compressors --- capacity adjustment valves with continuous modulation and different operating modes (economizer, expansion with electronic valve) --- ensure energy saving typically over 20%.

% Cooling capacity

Efficient control and adjustment

Outlet water temperature (°C)

% Cooling capacity

The cooling capacity can be changed and modulated continuously thanks to Time the microprocessor control of the choFluctuation with steps capacity control king slide valve for the compressor capacity. Each unit is equipped with a variable power control without limits from 100% Chiller Load up to 25%. This modulation enables the 100 100 compressor to perfectly meet the building ---cooling load without any change in 75 75 the outlet temperature from the evapora Load 9 9 tor. This change in the cooled water tem8 8 7 7 perature is avoided only thanks to a ste6 6 5 pless control, such as the one offered by 5 Emerson Network Power. Indeed, with Time a step capacity control with partial loads, Stability with stepless capacity control each power step would be too high or too low when compared to the building --cooling load, so loosing water temperature control. Thus, the energy costs for the chiller are decreased, above all under conditions of partial load featuring the chiller operation most of the time.

Seasonal efficiency: IPLV---ESEER efficiency ratios Liebert Hiross HPC ---L features excellent performance under partial loads. The loads of the air conditioning systems in the standard operating conditions are remarkably lower than the max. rated load conditions for the chiller selection. Thus, chillers seldom work under full load. The Liebert Hiross HPC ---L chillers can offer significant operation savings. The operation of the chillers under partial load is usually associated with reduced air temperatures in the condenser and reduced room temperatures. With the operation under partial load, the heat to be disposed is less than the one under full load. Further, the operation under partial load is typically associated with reduced outdoor temperatures that enable the best performance of the unit. The operation under partial load associated with reduced room temperatures ensures better performance and efficiency by the chiller. IPLV (Integrated Part Load Value) is a method for measuring the total chiller performance in a defined range of operating conditions under partial load. This method has been studied by ARI and is included in the standard ARI 550/590---98. As most of the conditioning systems operate for most of the time at a load lower than the max. rated one, IPLV is an excellent method to compare the chiller efficiency under similar conditions.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits The formula to calculate IPLV is: IPLV = 0.01A + 0.42B + 0.45C + 0.12D Where: A = EER at 100%, load point at 35.0 °C condenser air inlet B = EER at 75%, load point at 26.7 °C C = EER at 50%, load point at 18.3 °C D = EER at 25%, load point at 12.8 °C An alternative seasonal efficiency ratio has been defined for Europe, which is more suitable for the load conditions, the outdoor air temperatures and the building principles typical of European countries. It is defined by the acronym ESEER (European Seasonal Energy Efficiency Ratio), as specified here below: ESEER = 0.03A + 0.33B + 0.41C + 0.23D Where: A = EER at 100%, load point at 35 °C condenser air inlet B = EER at 75%, load point at 30.0 °C C = EER at 50%, load point at 25.0 °C D = EER at 25%, load point at 20.0 °C Such ratios are really useful to calculate the energy consumption, when the load distribution required by the chiller in one year of operation follows the same percentage subdivisions considered in the above mentioned formulas. Absorbed energy = Required energy / Efficiency ratio Tab. 1a --- Efficiency ratios HPC ---L Model

CA7

CB7

CL7

CQ7

Size 081 087 093 100 107 115 122 131 140 081 087 093 100 107 115 122 131 140 080 086 092 099 106 114 121 130 139 080 086 092 099 106 114 121

EER 2.67 2.59 2.57 2.49 2.62 2.54 2.67 2.85 2.78 2.59 2.49 2.48 2.38 2.52 2.44 2.58 2.79 2.71 2.77 2.68 2.79 2.70 2.62 2.54 2.81 2.72 2.63 2.46 2.36 2.49 2.38 2.26 2.17 2.50

IPLV 4.20 4.10 3.97 4.01 4.20 4.06 4.03 4.18 4.24 4.27 4.12 4.01 4.07 4.24 4.09 4.07 4.28 4.33 4.40 4.27 4.29 4.35 4.43 4.24 4.34 4.37 4.40 4.31 4.14 4.21 4.25 4.31 4.09 4.22

ESEER 3.70 3.60 3.51 3.53 3.71 3.57 3.59 3.75 3.78 3.72 3.59 3.51 3.54 3.73 3.57 3.60 3.82 3.84 3.88 3.77 3.82 3.85 3.88 3.72 3.85 3.86 3.88 3.71 3.57 3.66 3.67 3.70 3.49 3.67

Model

CA4

CB4

CL4

CQ4

Size 069 075 081 087 093 100 107 ----069 075 081 087 093 100 107 ----068 074 080 086 092 099 106 ----068 074 080 086 092 099 106

EER 3.31 3.22 3.16 3.08 3.04 3.00 3.15 ----3.28 3.18 3.09 3.00 2.97 3.93 3.10 ----3.29 3.17 3.28 3.19 3.29 3.26 3.24 ----3.05 2.89 3.03 2.93 3.07 3.00 2.95

IPLV 4.33 4.45 4.58 4.39 4.09 4.26 4.46 ----4.49 4.59 4.73 4.46 4.19 4.35 4.61 ----4.56 4.67 4.82 4.58 4.40 4.58 4.81 ----4.59 4.63 4.88 4.57 4.46 4.60 4.79

ESEER 3.99 4.06 4.15 3.96 3.75 3.85 4.04 ----4.09 4.15 4.23 4.02 3.80 3.92 4.14 ----4.16 4.20 4.36 4.15 4.05 4.18 4.33 ----4.13 4.15 4.35 4.13 4.05 4.16 4.29

EER (Energy Efficiency Ratio) IPLV (Integrated Part Load Value) ESEER (European Seasonal Energy Efficiency Ratio) Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Features and Benefits Low sound emission The Liebert Hiross HPC ---L series is characterised by unrivalled low sound emissions, in particular the models of the version Quiet. A sound ---proofed compressors enclosure, ”Muffler” ---type pulsation dampers integrated in the compressor oil separator, compressor fastening on insulating/anti ---vibration s, inlet and outlet hoses, fans and speed adjusters specifically designed to reduce sound emission lead to these superior results. All units are equipped with a modulating fans speed control; controlled by a special algorithm which, while optimising the compressors management, enables to keep the fan speed always to the minimum. Even lower sound emission levels can be obtained with the EC fans (with integrated electronic switching motor), above all in low speed operation. Liebert Hiross HPC-L series sound emissions at 1 m distance 85 80

dB(A)

75 70 65

60 55 068 069

074 075

080 081

086 087

B - Base version L - Low noise version Q - Quiet version

092 093

099 100

106 107

114 115

121 122

130 131

139 140

Models

Tab. 1b --- Sound levels HPC ---L

The unit sound level in the version ”B” B and in the version ”L” is lowered by y 3 dB(A) ( ) in standard d d operating i conditions di i with i h water 12/7ûC at the evaporator and outdoor air less than 30 30ûC C by special suitable measures, such as: D better sound insulation of the comcom pressor compartment; p p D automatic i ffan speed d reduction d i with ih standard adjustment with phase cutoff (TRIAC) for the ”B” versions; D automatic fan speed reduction with inL” versions. verter adjustment for the ”L

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Model

“B” version

“L” version

“Q” version

068 --- 069

79.5

73.0

65.0

074 --- 075

79.5

73.0

65.0

080 --- 081

79.5

73.5

65.5

086 --- 087

79.5

73.5

65.5

092 --- 093

80.0

74.0

66.0

099 --- 100

80.0

74.0

66.0

106 --- 107

80.5

74.0

66.0

114 --- 115

80.5

74.0

66.0

121 --- 122

81.0

75.0

67.0

130 --- 131

82.0

75.0

---

139 --- 140

82.0

75.0

---

1 -- 7

2

Model Number Description

Model Number Description

Model Nomenclature / Digit Numbers

1

2

3

4

5

6

7

8

9 10 11 12 13 14 15 16 17 18

C B 4 0 6 9 Cooling Capacity Cooling capacity (x 10 = kW) Refrigerant 4 = R134a 7 = R407C

Specification

Versions A = Efficiency ”class A” B = Base L = Low noise Q = Quiet

C = Water--cooled Chiller F = Free--cooling Chiller

Liebert Hiross HPC---L Digits 1, 2, 3, 4, 5, 6 --- Base unit

Digit 11 --- Fan speed control

Base unit main features

1 = TRIAC control 2 = Inverter control 3 = EC---Fan

D D D D

D D D D

D D D

Structure and bearing base in galvanized steel sheet sections, with powder---painting and suitable thickness Two indipendent refrigeration circuits Semihermetic screw compressors with continuous capacity control Shell & Tube evaporators with direct expansion and independent circuit on the refrigerant side for each compressor Condensing coils with copper pipes and aluminum fins International approval 97/23 EC --- PED Microface board / Display control interlocked to each electric board Double electric CE compliant and complete with safety equipments, fan motors protection, fuses and protection thermal relays for compressors, power supply 400 V / 3 Ph / 50 Hz (RST + PE) Main switch on each electric board Antiscratch plastic film packaging Colour Ral 7032 “Grey”

Digit 7 --- Electronic expansion valve (EEV) 0 = Standard mechanic valve 1 = Electronic valve

Digit 8 --- Compressor suction shut ---off valve 0 = None 1 = With shut---off valve

Digit 9 --- Refrigerant gauges 0 = None 1 = With HP/LP gauges

Digit 10 --- Economiser (ECO) / Liquid injection 0 = No ECO / no liquid injection 1 = With ECO 2 = With liquid injection

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Digit 12 --- Pumps group / Hydraulic Kit 0= 1= 2= 3= 4= 5=

No pumps / no hydraulic Kit No pumps / with hydraulic Kit 2 standard head pumps / with hydraulic Kit 2 high head pumps / with hydraulic Kit 2 pumps (1 with inverter), standard head / with hyd. Kit 2 pumps (1 with inverter), high head / with hyd. Kit

Digit 13 --- 20 % heat recovery 0 = None 1 = 20 % heat recovery

Digit 14 --- Electric options 0= 1= 2= 3=

None With electric heaters With energy meter With electric heaters and energy meter

Digit 15 --- Evaporator electric heaters 0 = None 1 = With electric heaters only evaporator 2 = With evaporator electric heaters, pumps and pipes

Digit 16 --- Compressor power factor capacitors 0 = None 1 = With compressor power factor capacitors

Digit 17 --- Condensing coil filter / Protection grid 0= 1= 2= 3=

None With condensing coil filter With protection grids With condensing coil filters and protection grids

Digit 18 --- Special requests 0 = None X = As Specified

2 -- 1

3

Operating Range

Operating Range Working Limits Minimum temperature of outdoor air entering condenser coils (with standard operating unit): ---25 ûC for freecooling models; ---10 ûC for Chiller models. Maximum outdoor air temperature is in relation to each model, as indicated in the following tables. In any case outdoor temperatures over 46ûC are not itted; such limits are determined by electrical and electronic components fitted on units. Maximum flow rates are indicated in the following tables. Higher flow values may cause corrosions and vibrations inside the shell and tube heat exchanger. The Minimum water flow allowed corresponds to a maximum temperature difference of 8ûC. More extreme operating conditions would active safety devices and the unit would be stopped. Outlet water temperature from 4 to 15 ûC. The maximum allowed water return temperature when the unit is in full operation is 20 ûC; return temperatures in excess of 20 ûC are allowed only during start---up. The maximum glycol percentage permitted is 50% (35% with standard pump sets fitted) The minimum glycol percentage necessary is in relation to the minimum ambient air temperature conditions referred to the place of installation. The maximum hydraulic working pressure is 6 Barg (Safety valve setting is 5 Barg with the optional hydraulic kit). Nominal power supply tolerance: 400V +/ --- 10%; max. voltage drop: 3%. See operation range Table in which each model’s limits are indicated; for different values ask your agent. Unit storage conditions: Between ---20 ûC and + 45 ûC for all models.

D

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Operating Range Tab. 3a --- Operating range --- HPC ---L

R407C

Models: CA7 Working range Max. outdoor temperature (1) Max. outdoor temperature (2) Max. water flow Safety devices settings High pressure switch (1) High pressure switch (2) High pressure safety valve Low pressure switch Low pressure safety valve

°C °C

m3/h

Safety devices settings High pressure switch (1) High pressure switch (2) High pressure safety valve Low pressure switch Low pressure safety valve

°C °C

m3/h

Safety devices settings High pressure switch (1) High pressure switch (2) High pressure safety valve Low pressure switch Low pressure safety valve

°C °C

m3/h

Safety devices settings High pressure switch (1) High pressure switch (2) High pressure safety valve Low pressure switch Low pressure safety valve

100

107

115

122

131

140

41.0 44.5 216

41/39 44.5/42.5 216

39.5 43.0 216

39.5/37.5 43/41 216

39.5 43.0 238

39.5/37.5 43/41 238

40.0 43.5 290

43/38 46.5/38 290

38.0 38.0 290

24 26 29 2.8 17.3

081

087

093

100

107

115

122

131

140

40.0 43.5 216

40/38 43.5/41.5 216

38.5 42.0 216

38.5/36.5 42/40 216

38.5 42.0 238

38.5/36.5 42/40 238

39.0 42.5 290

42.5/37 46/37 290

37.0 37.0 290

24 26 29 2.8 17.3

080

086

092

099

106

114

121

130

139

42.0 45.5 216

42/40 45.5/43.5 216

42.0 45.5 216

42/40 45.5/43.5 216

39.0 42.5 238

39/37 42.5/40.5 238

41.0 44.5 290

41.0/35.5 44.5/35.5 290

35.5 35.5 290

bar bar bar bar bar

Models: CQ7 Working range Max. outdoor temperature (1) Max. outdoor temperature (2) Max. water flow

093

bar bar bar bar bar

Models: CL7 Working range Max. outdoor temperature (1) Max. outdoor temperature (2) Max. water flow

087

bar bar bar bar bar

Models: CB7 Working range Max. outdoor temperature (1) Max. outdoor temperature (2) Max. water flow

081

°C °C

m3/h bar bar bar bar bar

24 26 29 2.8 17.3

080

086

092

099

106

114

121

38 41.5 216

38/36 41.5/39.5 216

38 41.5 216

38/36 41.5/39.5 216

35 38.5 238

35/33 38.5/36.5 238

37 40.5 290

24 26 29 2.8 17.3

(1) --- With nominal air flow; water outlet temperature 7ûC; full load; R407C refrigerant; standard version and with economiser option. (2) --- With nominal air flow; water outlet temperature 7ûC; full load; R407C refrigerant; version with liquid injection option. Notes: The units are equipped with automatic capacity reduction system to avoid the machine lock before reaching the indicated outdoor air temperature max. limits. In the units with economizer option, such device is disabled before reaching the indicated outdoor air temperature max. limits. In the units with asymmetrical compressors, the indicated outdoor air temperature max. limit are referred to each refrigerating circuit.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

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Operating Range Tab. 3a --- Operating range --- HPC ---L

R134a

Models: CA4 Working range Max. outdoor temperature (1) Max. water flow Safety devices settings High pressure switch (1) High pressure safety valve Low pressure switch Low pressure safety valve

°C m3/h

Safety devices settings High pressure switch (1) High pressure safety valve Low pressure switch Low pressure safety valve

°C m3/h

Safety devices settings High pressure switch (1) High pressure safety valve Low pressure switch Low pressure safety valve

°C m3/h

Safety devices settings High pressure switch (1) High pressure safety valve Low pressure switch Low pressure safety valve

087

093

100

107

52.5 158

52.5/49.5 158

49.5 212

49.5/47 212

49.0 212

49/46 212

48.5 236

18 20 1.1 12

069

075

081

087

093

100

107

51.5 158

51.5/48 158

48.0 212

48/45.5 212

47.5 212

47.5/44.5 212

47.5 236

18 20 1.1 12

068

074

080

086

092

099

106

51.0 158

51/48 158

50.5 212

50.5/48 212

51.5 212

51.5/48.5 212

48.5 236

bar bar bar bar

Models: CQ4 Working range Max. outdoor temperature (1) Max. water flow

081

bar bar bar bar

Models: CL4 Working range Max. outdoor temperature (1) Max. water flow

075

bar bar bar bar

Models: CB4 Working range Max. outdoor temperature (1) Max. water flow

069

°C m3/h

bar bar bar bar

18 20 1.1 12

068

074

080

086

092

099

106

47.5 158

47.5/44.5 158

46.5 212

46.5/44.5 212

48.0 212

48/45 212

44.5 236

18 20 1.1 12

(1) --- With nominal air flow; water outlet temperature 7ûC; full load; R134a refrigerant; standard version and with economiser option. For indicated temperatures over 46ûC, the limits are to be referred to special units in tropicalized version. Notes: The units are equipped with automatic capacity reduction system to avoid the machine lock before reaching the indicated outdoor air temperature max. limits. In the units with economizer option, such device is disabled before reaching the indicated outdoor air temperature max. limits. In the units with asymmetrical compressors, the indicated outdoor air temperature max. limit are referred to each refrigerating circuit.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

3 -- 3

4 Technical Data

Tab. 4a -

Technical Data Technical Data - CA7 081-140

R 407C 081

087

093

100

107

115

122

131

140

kW kW kW m3/h kPa

885 301 331 2.94 2.67 152.2 42

928 328 358 2.83 2.59 159.6 46

996 351 387 2.84 2.57 171.3 51

1045 384 420 2.72 2.49 179.7 56

1157 399 441 2.90 2.62 199.0 47

1211 434 476 2.79 2.54 208.3 52

1322 447 495 2.96 2.67 227.4 42

1462 453 513 3.23 2.85 251.5 51

1529 490 550 3.12 2.78 263.0 55

kW kW kW m3/h kPa

980 372 402 2.63 2.44 168.6 51

1016 402 432 2.53 2.35 174.8 55

1080 422 458 2.56 2.36 185.8 59

1126 455 491 2.47 2.29 193.7 64

1238 458 500 2.70 2.48 212.9 54

1297 507 549 2.56 2.36 223.1 59

1415 524 572 2.70 2.47 243.4 48

1550 511 571 3.03 2.71 266.6 57

1613 545 605 2.96 2.67 277.4 61

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

83.5 104.5

83.5 104.5

84 105

84 105

84.5 105.5

84.5 105.5

85 106.5

86 108

86 108

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

118

118

124

124/131

2 147

147

166

184

184

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CA7 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

180

2 double screw with integrated oil separator and muffler 180+210 210+240 240+280 280+300 210 240 280 25 ⇒ 100 % stepless

300

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

10

10

12

12

30.0

30.0

36.0

36.0

14 axial 900 900 3.0 42.0

250.000

250.000

270.000

270.000

315.000

14

16

20

20

42.0

48.0

60.0

60.0

315.000

360.000

450.000

450.000

1 shell & tube 111 111

132

132

132

copper / aluminium 3 / 1.8 33.0 38.5 38.5 186 216 216

44.0 248

55.0 308

55.0 308

2 x DN 150-6” 1 x DN 200-8” 506 506 446

446

446

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

80

80

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

33.0 186

Water connections Diameters inlet Diameter outlet Unit volume

2 x DN 125-5” 1 x DN 150-6” 444 444

414

414

mm mm mm

8590

8590

8590

8590

9586 2308 2563

9586

11578

13570

13570

kg kg

8690 9134

8712 9156

8902 9316

8922 9336

9637 10143

9698 10204

10730 11176

11784 12230

11809 12255

DN-inch DN-inch

Dimensions Length Depth Height

l

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 1

Technical Data Tab. 4b -

Technical Data - CB7 081-140

R 407C 081

087

093

100

107

115

122

131

140

kW kW kW m3/h kPa

862 310 333 2.78 2.59 148.3 40

901 339 362 2.66 2.49 155.0 44

966 362 390 2.67 2.48 166.2 48

1011 397 425 2.55 2.38 173.9 52

1125 414 446 2.72 2.52 193.5 45

1175 449 481 2.62 2.44 202.1 49

1286 461 498 2.79 2.58 221.2 40

1431 466 512 3.07 2.79 246.1 49

1495 505 551 2.96 2.71 257.1 53

kW kW kW m3/h kPa

954 390 413 2.45 2.31 164.1 49

987 421 444 2.34 2.22 179.8 52

1047 441 469 2.37 2.23 180.1 56

1090 477 505 2.29 2.16 187.5 60

1206 481 513 2.51 2.35 207.4 51

1259 532 564 2.37 2.23 216.5 56

1377 547 584 2.52 2.36 236.8 45

-

-

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

79.5 100.5

79.5 100.5

80 101

80 101

80.5 101.5

80.5 101.5

81 102.5

82 104

82 104

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

118

118

124

124/131

2 147

147

166

184

184

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CB7 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

180

2 double screw with integrated oil separator and muffler 180+210 210+240 240+280 280+300 210 240 280 25 ⇒ 100 % stepless

300

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

10

10

12

12

23.0

23.0

27.6

27.6

14 axial 900 900 2.3 32.2

230.000

230.000

247.200

247.200

288.400

14

16

20

20

32.2

36.8

46.0

46.0

288.400

329.600

512.000

412.000

1 shell & tube 111 111

132

132

132

copper / aluminium 3 / 1.8 33.0 38.5 38.5 186 216 216

44.0 248

55.0 308

55.0 308

2 x DN 150-6” 1 x DN 200-8” 506 506 446

446

446

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

80

80

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

33.0 186

Water connections Diameters inlet Diameter outlet Unit volume

2 x DN 125-5” 1 x DN 150-6” 444 444

414

414

mm mm mm

8590

8590

8590

8590

9586 2308 2571

9586

11578

13570

13570

kg kg

8690 9134

8712 9156

8902 9316

8922 9336

9637 10143

9698 10204

10730 11176

11784 12230

11809 12255

DN-inch DN-inch

Dimensions Length Depth Height

l

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 2

Technical Data Tab. 4c -

Technical Data - CL7 080-139

R 407C 080

086

092

099

106

114

121

130

139

kW kW kW m3/h kPa

892 298 322 2.99 2.77 153.4 43

935 325 349 2.88 2.68 160.8 47

1025 340 367 3.01 2.79 176.3 54

1076 371 398 2.90 2.70 185.1 59

1139 408 435 2.79 2.62 195.9 46

1190 442 469 2.69 2.54 204.7 50

1336 441 475 3.03 2.81 229.8 43

1399 480 514 2.91 2.72 240.6 47

1461 521 555 2.80 2.63 251.3 51

kW kW kW m3/h kPa

987 370 394 2.67 2.51 169.8 52

1024 399 423 2.57 2.42 176.1 56

1109 406 433 2.73 2.56 190.7 62

1158 436 463 2.66 2.50 199.2 68

1218 472 499 2.58 2.44 209.5 52

1274 522 549 2.44 2.32 219.1 57

1424 515 549 2.77 2.59 244.9 48

-

-

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

73.5 94.5

73.5 94.5

74 95.5

74 95.5

74 95.5

74 95.5

75 97

75 97

75 97

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

126

126

141

141/149

2 157

157

184

184

184

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CL7 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

180

2 double screw with integrated oil separator and muffler 180+210 210+240 240+280 280+300 210 240 280 25 ⇒ 100 % stepless

300

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

14

14

16

16

23.8

23.8

27.2

27.2

16 axial 800 900 1.7 27.2

254.800

254.800

291.200

291.200

291.200

16

20

20

20

27.2

34.0

34.0

34.0

291.200

364.000

364.000

364.000

1 shell & tube 111 111

132

132

132

copper / aluminium 3 / 1.8 44.0 44.0 44.0 248 248 248

55.0 308

55.0 308

55.0 308

2 x DN 150-6” 1 x DN 200-8” 506 506 446

446

446

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

80

80

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

38.5 216

38.5 216

44.0 248

Water connections Diameters inlet Diameter outlet Unit volume

DN-inch DN-inch

Dimensions Length Depth Height

l

2 x DN 125-5” 1 x DN 150-6” 444 444

414

414

mm mm mm

9586

9586

11578

11578

11578 2308 2571

11578

13570

13570

13570

kg kg

9174 9618

9194 9638

10078 10492

10094 10508

10270 10776

10334 10840

11449 11895

11464 11910

11489 11935

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 3

Technical Data Tab. 4d -

Technical Data - CQ7 080-121

R 407C 080

086

092

099

106

114

121

kW kW kW ----m3/h kPa

831 323 338 2.57 2.46 142.9 37

866 352 367 2.46 2.36 149.0 40

955 366 384 2.61 2.49 164.3 47

999 403 421 2.48 2.38 171.8 51

1051 448 466 2.35 2.26 180.8 40

1093 485 503 2.25 2.17 188.0 42

1246 477 499 2.61 2.50 214.3 37

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

65.5 86.5

65.5 86.5

66 87.5

66 87.5

66 87.5

66 87.5

67 89

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

126

126

141

2 141/149

157

157

184

Model CQ7 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

180

2 double screw with integrated oil separator and muffler 180+210 210+240 240+280 210 240 25 ⇒ 100 % stepless

280

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

14

14

16

16

16

20

17.6 224.000

16 axial 800 700 1.1 17.6 224.000

15.4 196.000

15.4 196.000

17.6 224.000

17.6 224.000

22.0 280.000

93

1 shell & tube 93

111

111

132

copper / aluminium 3 / 1.8 44.0 44.0 44.0 248 248 248

44.0 248

55.0 308

2 x DN 150-6” 1 x DN 200-8” 414 506 506

446

Evaporator Number of evaporators Type Int. volume [each circuit. ref. side]

No l

80

80

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

38.5 216

38.5 216

Water connections Diameters inlet Diameter outlet Unit volume

DN-inch DN-inch

l

2 x DN 125-5” 1 x DN 150-6” 444 444

414

Dimensions Length Depth Height Weights Net weight Operating weight

mm mm mm

9586

9586

11578

11578 2308 2571

11578

11578

13570

kg kg

9174 9618

9194 9638

10078 10492

10094 10508

10270 10776

10334 10840

11449 11895

Notes: (1) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 4

Technical Data Tab. 4e -

Technical Data - CA4 069-107

R 134a 069

075

081

087

093

100

107

kW kW kW ----m3/h kPa

745 195 225 3.82 3.31 128.1 44

790 215 245 3.67 3.22 135.9 50

846 238 268 3.55 3.16 145.5 36

881 256 286 3.44 3.08 151.5 39

926 269 305 3.44 3.04 159.3 43

972 288 324 3.38 3.00 167.2 47

1063 295 337 3.60 3.15 182.8 44

kW kW kW ----m3/h kPa

836 222 252 3.77 3.32 143.8 52

882 243 273 3.63 3.23 151.7 57

937 265 295 3.54 3.18 161.2 41

981 290 320 3.38 3.07 168.7 45

1033 308 344 3.35 3.00 177.7 49

1079 327 363 3.30 2.97 185.6 54

1158 325 367 3.56 3.16 199.2 48

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

83.5 104.5

83.5 104.5

83.5 104.5

83.5 104.5

84 105

84 105

84.5 105.5

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

101

101

108

2 108/116

116

116

130

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CA4 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

160

2 double screw with integrated oil separator and muffler 160+180 180+210 210+240 180 210 25 ⇒ 100 % stepless

240

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

10

10

10

12

12

14

30.0 250.000

10 axial 900 900 3.0 30.0 250.000

30.0 250.000

30.0 250.000

36.0 270.000

36.0 270.000

42.0 315.000

112

1 shell & tube 112

112

112

132

copper / aluminium 3 / 1.8 33.0 33.0 33.0 186 186 186

33.0 186

38.5 216

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

l

414

2 x DN 125-5” 1 x DN 150-6” 414 372

mm mm mm

8590

8590

8590

8590 2308 2563

8590

8590

9586

kg kg

8686 9100

8694 9108

8815 9187

8892 9264

9074 9446

9105 9477

9836 10282

Water connections Diameters inlet Diameter outlet Unit volume Dimensions Length Depth Height

DN-inch DN-inch

372

2 x DN 150-6” 1 x DN 200-8” 372 372 446

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 5

Technical Data Tab. 4f -

Technical Data - CB4 069-107

R 134a 069

075

081

087

093

100

107

kW kW kW ----m3/h kPa

732 200 223 3.66 3.28 125.9 43

776 221 244 3.51 3.18 133.5 48

829 245 268 3.38 3.09 142.6 35

862 264 287 3.27 3.00 148.3 37

905 277 305 3.27 2.97 155.7 41

950 297 325 3.20 2.93 163.4 45

1041 304 336 3.42 3.10 179.1 42

kW kW kW ----m3/h kPa

824 230 253 3.58 3.26 141.7 50

869 252 275 3.45 3.16 149.5 56

923 277 300 3.33 3.08 158.8 40

963 303 326 3.18 2.95 165.6 43

1013 321 349 3.16 2.91 174.2 47

1056 342 370 3.09 2.86 181.6 52

1138 339 371 3.36 3.07 195.7 47

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

79.5 100.5

79.5 100.5

79.5 100.5

79.5 100.5

80 101

80 101

80.5 101.5

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

101

101

108

2 108/116

116

116

130

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CB4 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

160

2 double screw with integrated oil separator and muffler 160+180 180+210 210+240 180 210 25 ⇒ 100 % stepless

240

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

10

10

10

12

12

14

23.0 230.000

10 axial 900 900 2.3 23.0 230.000

23.0 230.000

23.0 230.000

27.6 247.200

27.6 247.200

32.2 288.400

112

1 shell & tube 112

112

112

132

copper / aluminium 3 / 1.8 33.0 33.0 33.0 186 186 186

33.0 186

38.5 216

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

l

414

2 x DN 125-5” 1 x DN 150-6” 414 372

mm mm mm

8590

8590

8590

8590 2308 2571

8590

8590

9586

kg kg

8686 9100

8694 9108

8815 9187

8892 9264

9074 9446

9105 9477

9836 10282

Water connections Diameters inlet Diameter outlet Unit volume Dimensions Length Depth Height

DN-inch DN-inch

372

2 x DN 150-6” 1 x DN 200-8” 372 372 446

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 6

Technical Data Tab. 4g -

Technical Data - CL4 068-106

R 134a 068

074

080

086

092

099

106

kW kW kW ----m3/h kPa

728 201 221 3.62 3.29 125.2 43

772 223 243 3.46 3.17 132.8 48

851 236 260 3.61 3.28 146.4 36

886 254 278 3.49 3.19 152.4 39

947 261 288 3.63 3.29 162.9 45

995 278 305 3.58 3.26 171.1 49

1054 298 325 3.54 3.24 181.3 43

kW kW kW ----m3/h kPa

819 234 254 3.50 3.22 140.9 50

863 257 277 3.36 3.11 148.4 55

939 264 288 3.56 3.26 161.5 41

983 288 312 3.41 3.15 169.1 45

1051 297 324 3.54 3.24 180.8 51

1096 314 341 3.49 3.21 188.5 55

1147 333 360 3.44 3.18 197.3 47

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

73 94

73 94

73.5 94.5

73.5 94.5

74 95.5

74 95.5

74 95.5

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

101

101

116

2 116/123

132

132

139

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CL4 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

160

2 double screw with integrated oil separator and muffler 160+180 180+210 210+240 180 210 25 ⇒ 100 % stepless

240

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

12

12

14

16

16

16

23.8 254.800

14 axial 800 900 1.7 23.8 254.800

20.4 218.400

20.4 218.400

27.2 291.200

27.2 291.200

27.2 291.200

112

1 shell & tube 112

112

112

132

copper / aluminium 3 / 1.8 38.5 38.5 44.0 216 216 248

44.0 248

44.0 248

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

l

414

2 x DN 125-5” 1 x DN 150-6” 414 372

mm mm mm

8590

8590

9586

9586 2308 2571

11578

11578

11578

kg kg

8672 9086

9684 9098

9302 9674

9374 9746

10260 10632

10288 10660

10474 10920

Water connections Diameters inlet Diameter outlet Unit volume Dimensions Length Depth Height

DN-inch DN-inch

372

2 x DN 150-6” 1 x DN 200-8” 372 372 446

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 7

Technical Data Tab. 4h -

Technical Data - CQ4 068-106

R 134a 068

074

080

086

092

099

106

kW kW kW ----m3/h kPa

693 214 227 3.24 3.05 119.2 39

732 240 253 3.05 2.89 125.9 43

812 253 268 3.21 3.03 139.7 34

842 272 287 3.10 2.93 144.8 36

903 277 295 3.26 3.07 155.3 41

948 298 316 3.18 3.00 163.1 45

1001 322 340 3.11 2.95 172.2 39

kW kW kW ----m3/h kPa

784 257 270 3.05 2.90 134.8 46

825 285 298 2.89 2.77 141.9 50

905 292 307 3.10 2.94 155.7 38

941 319 334 2.95 2.81 161.9 41

1008 324 342 3.11 2.95 173.4 47

1052 346 364 3.04 2.89 180.9 51

1097 370 388 2.96 2.83 188.7 44

SPL [Sound Pressure Level] (3) PWL [Sound Power Level] (4)

dB(A) dB(A)

65 89

65 86

65.5 86.5

65.5 86.5

66 87.5

66 87.5

66 87.5

Refrigeration circuit Number of refrigeration circuits Refrigerant charge [each circuit]

No kg

101

101

116

2 116/123

132

132

139

Compressor Number of compressors Type Nominal power [each compressor] Capacity control

No HP -

Model CQ4 Performance (1) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Performance (2) Cooling capacity Compressors power input Total power input Compressors COP Unit EER Water flow Water pressure drop Sound level

160

2 double screw with integrated oil separator and muffler 160+180 180+210 210+240 180 210 25 ⇒ 100 % stepless

240

Fan Number of fans Type Wheel nominal diameter Rpm Nominal power input [each fan] Fans power input Air flow rate

No mm 1/min kW kW m3/h

12

12

14

16

16

16

15.4 196.000

14 axial 800 700 1.1 15.4 196.000

13.2 168.000

13.2 168.000

17.6 224.000

17.6 224.000

17.6 224.000

112

1 shell & tube 112

112

112

132

copper / aluminium 3 / 1.8 38.5 38.5 44.0 216 216 248

44.0 248

44.0 248

Evaporator Number of evaporators Type Internal volume [each circuit. ref. side]

No l

93

93

Condensing coil Material tubes / Fins Rows / Fins space Face area Internal volume [each circuit]

no/mm m2 l

33.0 186

33.0 186

l

414

2 x DN 125-5” 1 x DN 150-6” 414 372

mm mm mm

8590

8590

9586

9586 2308 2571

11578

11578

11578

kg kg

8672 9086

8684 9098

9302 9674

9374 9746

10260 10632

10288 10660

10474 10920

Water connections Diameters inlet Diameter outlet Unit volume Dimensions Length Depth Height

DN-inch DN-inch

372

2 x DN 150-6” 1 x DN 200-8” 372 372 446

Weights Net weight Operating weight Notes: (1) (2) (3) (4) -

At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. At the following standard conditions: power supply 400V/3Ph/50Hz; outdoor temperature 35°C; economizer option; water inlet/outlet temperature 12/7°C; ethylene glycol 0%. Measured with outdoor temperature 35°C; 1m from the unit; free field conditions; according to ISO 3744. With outdoor temperature 35°C; calculated according to ISO 3744.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

4 -- 8

5

Mechanical Specifications

Mechanical Specifications Construction and s The Liebert Hiross HPC ---L series is designed for outdoor installations, having maximum corrosion protection, with all s being of heavy gauge, galvanised steel construction. The base is of 3+4mm gauge galvanised steel channels, polyester powder painted in RAL7032, interconnected using special rivets with elevated mechanical characteristics and the frame hidden inner parts are in galvanized steel. Holes (ø 56 mm) are drilled on the base, where the unit lifting bars can be fit. s are made of heavy gauge galvanised steel, polyester powder painted in RAL7032 and provided with waterproof gaskets. Lateral s are fixed with screws, s on the front and electrical board are closed by a suitable lock that can be opened by triangle wrench (dedicated/specific tool). All screws are galvanised or Dacromet---type. The compressor is located at the bottom of the unit and isolated from the airflow to avoid noise transmission and heat dissipation to the air stream.The compartment cooling is anyway ensured by a grid in the side closing s. The compressor compartment incorporates the electric board as well as the electric and electronic power devices; the latter is complete with closed base. In the Low Noise and Quiet versions (L & Q), s are lined with sound ---proof material; compressors are mounted on anti ---vibration mounts to prevent vibration transmission to the unit casing and the compressor compartment is lined with 35mm thick, double layer, polyurethane sound ---proof material embedded with one or more high density sound ---proof diaphragms.

Refrigeration Circuit All models are equipped with two compressors configured in independent refrigeration circuits. Each circuit includes double safety pressure switch for high pressure, a safety pressure switch for low pressure, a thermal expansion valve with equalizer, a filter dryer with disposable anti ---acid solid cartridge, a humidity indicator lamp, high and low pressure safety valves, charge connections, a three ---way solenoid valve enabling the thermal expansion valve to shut off the liquid in the piping and a manual on ---off valve; circuit with economizer exchanger (optional), circuit with liquid injection in the compressor (optional), high and low pressure switches (optional) and inlet and outlet flexible hoses (only in the ”Q” versions). The units are supplied charged with refrigerants R134a or R407C (depending on the versions) and oil as determined in the factory for the operating conditions within the indicated limits.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 1

Mechanical Specifications Refrigerant The units are arranged for using the refrigerant R134a or R407C depending on the chosen models.

Technical notes R407C Attention:

The differences between units operating with refrigerant fluid R407C and those operating with fluid R22 are described below.

ATTENTION The differences between the units operating with the fluid R407C and those operating with the fluid R22 are described below. It has been proven that the chlorine inside some refrigerants (HCFC and above all CFC) is harmful for the atmosphere ozone layer. The Montreal protocol, with the following amendments and the new European regulation no. 2037/2000, in force since 1st October 2000, limit in time, with several expiry dates, the production and use of the HCFC refrigerants, among which R22. The refrigerant R407C (HFC) does not contain chlorine and is thus absolutely suitable for the use in air conditioning systems, without damaging the ozone layer. Its main features are: D Non ---azeotropic mixture made of R32/R125/R134a in which the percentage weight composition is, in ratio, 23/25/52. D Thermophysical features similar to R22. D ODP (Ozone Depletion Potential) equal to 0. D Not flammable in the air. D Low toxicity. The new HFC fluids are essentially incompatible with the mineral oils which are usually used with R12 and R22. Therefore, new synthetic lubricants based on polyester molecules have been developed for their use. Note: Considering the unique thermophysical properties of RC407C the refrigeration cycle is illustrated in the diagram below. P (bar)

Iso

PC

PE h (kJ/kg)

High pressure side TCB:

Condensation temperature bubble point (Liquid) TCR: Condensation temperature dew point (Vapor) TCM: Average condensation temperature (TCB+TCM)/2 TL: Temperature of the refrigerant at the expansion valve inlet Overheating = TAC - TER

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Low pressure side TLV: TER:

TEM: TAC:

Liquid-steam temperature Evaporation temperature dew point (Vapor) Average evaporation temperature (TLV+TER)/2 Temperature of the overheated vapour at the compressor inlet Sub-cooling = TCB -TL

5 -- 2

Mechanical Specifications Compressor The Liebert Hiross HPC ---L series 10 11 2 1 12 13 is equipped with two semi ---hermetic, screw compressors specifically designed for application in air ---cooled refrigeration systems. Each compressor corresponds to an independent refrigerant circuit to allow maximum redundancy and system reliability, and is fitted with: 1 --- discharge shut---off valve; 2 --- suction shut---off valve (option); 3 --- oil level safety switch; 4 --- oil sight glass; 5 --- oil heater; 6 --- oil fill/drain valve; 7 --- direct liquid injection (option, standard on Q version); 4 3 6 5 8 --- automatic start unloading; 9 --- long ---life fine oil filter 10 ìm mesh size; 10 --- suction gas filter with large surface area and fine mesh; 11 --- 28 bar differential pressure relief valve (according to PrEN 12693 standards).

9

14

Each compressor is equipped with a three ---phase asynchronous two---pole motor located on the shaft of the male screw rotor and cooled by the suction gas. It is removable for inspection and maintenance. The motor start with reduced load is star/delta type. The motor is equipped with protection devices having the following functions: winding temperature, PTC sensor in the motor windings; D oil temperature ---PTC sensor; D phase sequence/direction of rotation; D phase lack monitoring. D

The main screw (male, with 5 lobes) is driven directly by the motor and drives the secondary one (female, with 6 cavities). A check valve (12) is incorporated in the discharge chamber to prevent reverse rotation of the screws and to allow/facilitate pressure equalization inside the compressor [unloaded start---up]. Robust axial bearings in tandem configuration (13), a bearing chamber pressure isolated by seal rings, and pressure unloading of axial bearings ensure minimum refrigerant dilution in the oil, oil higher viscosity and thus increased compressor reliability and longer working life. A three ---stage oil separator (14) is integrated in the execution. The chillers are equipped with infinite slide control with Vi compensation managed by a flanged solenoid valve. This is to ensure precise and stable control of the supply water temperature over the complete range of operating conditions.

Evaporators Liebert Hiross HPC ---L units are equipped with direct expansion, shell and tube type evaporators, designed, constructed, tested (pressure test on both refrigerant and water sides) and documented to comply with PED 97/23/CE standards. The ”U” ---designed tube nest can thermally expand in the shell without mechanical stress and can be removed for maintenance operations. They incorporate two refrigeration circuits and one water circuit. The shell is fabricated from seamless carbon steel with internally finned copper tubes and tube sheets of heavy gauge carbon steel. Baffles are of carbon steel; heads are constructed of carbon steel, gaskets of an asbestos free compound and bolts of steel alloys. They are externally insulated with closed cell elastomer with high resistance to UV rays HT ---type for outdoor installations. The evaporators are equipped with drainage and vent connections. The evaporators are protected against freezing by a paddle ---type flow switch and an antifreeze sensor directly managed by the microprocessor. As an option, a thermostatically controlled electric heater cable is wrapped around the shell to prevent

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 3

Mechanical Specifications freezing with outdoor temperatures below 0ûC. Temperature and pressure working limits and pressure test values are indicated below: Tab. 5a --- Evaporator working limits Design temperature

Design pressure

Min. / Max.

Refrigerant (R407C)

-10 / +90 °C

30.0 bar

Design temperature

Test pressure

Water

Refrigerant (R407C)

Water

10.0 bar

33.0 bar

11.0 bar

Design pressure

Min. / Max.

Refrigerant (R134a)

-10 / +90 °C

16.5 bar

Test pressure

Water

Refrigerant (R134a)

Water

10.0 bar

18.2 bar

11.0 bar

Condensers The condensing coils are made of copper tubes and aluminium fins and are mounted in double V (W) configuration to provide a larger heat exchange surface. Copper tubes in staggered rows are mechanical expanded in order to have the best with fins; the tubes are grooved type (KME Crossfin) to increase the thermal exchange. The Aluminium fins are manufactured with a special high efficiency rusticate surface that increases the thermal exchange. The condenser coils are tested at a pressure of 30bar.

“HTD” High outdoor temperature device: liquid injection (versions R407C only) The over ---sizing of the heat exchangers and the wide operating range of the new generation screw compressors enable use in very hot climates, too. The compressor liquid injection device is available as an option (HTD) as an alternative to the economizer; this options keeps the oil temperature within largely tolerated temperature values, and enables the compressor to run up its operating limits without jeopardising its reliability or the life of its components (bearings). The machine’s continuity of service is even ensured when exceeding the maximum operating limits, as the microprocessor limits the compressor load (before locking it out), reducing its capacity to 50%. Such device is not recommended in the units with R134a; only if the unit it operating under very hard conditions (e.g brine operation) such option can be actually used; for this reason, in case of doubt get in touch with your dealer.

Hydraulic Circuit The hydraulic circuit utilises carbon steel pipes connected with grooved ---end (Victaulic) fittings and couplings; gaskets are made of EPDM. This arrangement permits compensation for thermal expansion, reduces noise and vibrations propagating through hydraulic pipelines and facilitates ease of maintenance. Insulation of the hydraulic circuit is by closed cell synthetic elastomer with high resistance to UV rays HT type for outdoor installations.

Hydraulic Kit (Option) Il comprises an expansion vessel (charged at 1.5 bar, max. operating pressure 10 bar) and a safety valve set at 5 bar. Their installation positions are indicated in the hydraulic circuit schematic. The components are installed on the machine but the hydraulic connection as indicated in the hydraulic circuit scheme must be carried out by the installer. Such kit is always supplied together with the pump option. Expansion vessel volumes: 2 x 12 lt It is recommended that the total expansion vessel capacity required is always checked, depending on the unit volume, the circuit volume, the glycol percentage in the mixture and the expected maximum temperature variation of the mixture.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 4

Mechanical Specifications Superchiller execution Liebert Hiross HPC ---L models in the ”Freecooling execution” are designed with an integrated freecooling system consisting of: D cooling coils with copper tubes and aluminium fins, mounted in double V (W) configuration to provide a larger heat exchange surface D vent and drainage valves on the freecooling coils D low pressure drop three ---way valve with modulating servo---control All the freecooling functions are managed by the microprocessor controls, according to ambient conditions and thermal load: D direct Expansion with compressor operation only; 100 % coolant flow through the evaporator D direct Expansion and Freecooling; 100% coolant flow first through the free cooling coils and then the evaporators, with partial compressor operation D freecooling; 100% coolant flow through the free cooling coils and then the evaporators, without compressor operation Fan speed control, compressor starting and compressor partialisation, are managed by the controls with different strategies in order to increase the energy saving to the maximum possible.

Recirculating pumps (Option) All the models can be equipped with twin water circulating pumps mounted on ---board and factory piped. It is possible to select the pump type (low or high head) on each unit, both in the standard version and in the one with inverter and integrated electronic adjustment. All pumps are dynamically balanced according to ISO 1940 class 6.3. The electronic pump adjustment algorithm enables to modulate the pump speed to keep the delivery steady through the evaporator even if the hydraulic load changes; in this way, a significant energy saving is achieved and varies depending on the applications. In particular, in the Freecooling units this benefit is obtained above all in summer, when the Freecooling coil is short---circuited. The programming of the adjustment set of the electronic pump can be made in factory or in the installation site thanks to a simple remote control; in case of doubt, your dealer. They are suitable for operation with water ---ethylene glycol mixture up to 35/65% by weight and coolant fluid temperatures down to 4ûC. The Pumps are of the close ---coupled centrifugal type, direct driven, with two---pole electric motor having IP54 protection, Class F insulation and efficiency class 1 (according to CEMEP). The motors with this efficiency class (the highest) ensure a higher energy saving than the pump with lower efficiency class; further, they enable a more silent operation of the motor and can reach very high use limits of the room temperature (up to 60ûC). Pump casings are in cast iron, impellers in cast iron, shafts in stainless steel and the mechanical seals in silicon carbide/EPDM with dimensions according to EN12756, suitable for the use of coolant containing ethylene glycol. The Pump hydraulic circuit includes a discharge check valve for each pump. The pump body, the stator body and the fastening bolts and nuts are electrophoretically painted; such pumps can thus be used in outdoor places subject to weather agents without corrosion problems. Each pump also has an automatic circuit breaker. Microprocessor controls manage the pump rotation and stand ---by and automatically start the stand ---by pump in case of failure of the primary one. In the versions with inverter and integrated electronic adjustment only the first pump is equipped with these devices: the second one is a standard pump operating only if the first one is in alarm. The microprocessor will start the second pump for a short period every week so as to avoid locks and/or deposits on the propeller due to a long inactivity.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 5

Mechanical Specifications Fan Section Fans are axial type, with die ---cast aluminium blades statically and dynamically balanced, directly coupled to an electric motor with external rotor. They are balanced Q 66,3 according to DIN ISO 1940 part 1, have an IP54 degree of protection, Class F winding insulation and internal thermal protection. The characteristics of the motor depend on the unit version: ”A” high efficiency: . . . . . . 6---pole motor, propeller diameter 910 mm, 900 rpm ”B” base: . . . . . . . . . . . . . . . 6---pole motor, propeller diameter 910 mm, 900 rpm ”L” low noise: . . . . . . . . . . . 6---pole motor, propeller diameter 800 mm, 900 rpm ”Q” silent: . . . . . . . . . . . . . . 8 ---pole motor, propeller diameter 800 mm, 700 rpm The fans are complete with safety protection grilles and high efficiency nozzles. Except the ”A” versions, die ---cast aluminum blades with sickle ---shaped profile have been used to improve the sound deadening. The fan speed control, except in the ”Q” versions, is carried out by an adjuster with speed continuous modulation, phase cutoff type (TRIAC). In the ”Q” versions, the fan speed is controlled by an adjuster with speed continuous modulation, inverter type, to get the max. sound reduction even while modulating (such adjustment is available as option on the ”L” versions, too).

EC fans (Option) Only in the ”L” and ”Q” versions, as alternative to the standard modulating adjustment, it is possible to choose fans with electronic switching motor, with the same aeraulic performance as those installed in the selected unit, as well as the possibility of a fan modulating adjustment entirely managed by the microprocessor control. The EC technology includes a permanent magnet rotor combined with an electronic switching control of the stator magnetic field directly integrated in the motor (brushless motor). Such electronic switching device manages the fan rotation speed modulation. Compared to the traditional induction three ---phase motors, the inner losses in the iron reduce by 60% and in the copper by 40%, with an electric absorption lower by 20---30% than those of a traditional fan with induction three ---phase motor, getting the same aeraulic performance. Further, while modulating the speed, the absorbed power can be equal to 50 % than one of a traditional fan with phase cutoff adjustment (TRIAC). A general noise reduction is further obtained, as the EC technology used for the adjustment does not cause magnetic vibrations, not even on special frequencies corresponding to certain rotation speeds. Finally, the decrease of pickup currents thanks to the EC technology and the absence of sliding s for the rotor supply significantly reduce the stresses that negatively influence the component life, increasing the machine overall reliability.

Electrical and Chiller Control The electrical is designed, constructed and tested in compliance with IEC standards (EN60204---1). Each unit includes two symmetric electric boards, each one interlocked to half machine; they both must be electrically power supplied. The unit is adjusted by two independent microprocessor boards (Master and Subunit) installed on each electric board and reciprocally connected by Hirobus network. During the standard operation, the Master board exchanges information with the Subunit board; the display connected with the Master board enables to read and set parameters, while the one of the Subunit board enables only to display them. All analog/digital inputs and outputs for ensuring the independent and autonomous operation of half machine in case of alarm, if there is a problem on the outer power supply mains, on a machine component, on an electronic board or on the communication Hirobus network are connected on each microprocessor board. Liebert Hiross HPC --- L --- PD--- 273142--- 08.02.2007

5 -- 6

Mechanical Specifications The main electric board --- where the Master board is fited --- is on the left side of the hydraulic connection front in machines without pumps, while on the right side of the hydraulic connection front in machines with pumps. In the units with asymmetric compressors and/or with electronic pump (if this option is installed) the main electric board --- where the Master board is fit --- is located in the same machine side as such components. The position of the Master and Subunit boards can be simply inverted by shifting a dedicated jumper. The board is installed in a closed technical compartment (compressor compartment), thus it features a protection degree by IP54. The temperature inside the electric board is adjusted with the forced ventilation controlled by the microprocessor board by a sensor reading the temperature there. For low ambient temperatures (below ---5ûC) it is possible to have an electric heater fitted inside (optional) and controlled as well by the microprocessor board. Main features: D power supply, 400 V ±10% / 3 Ph + PE / 50Hz; D auxiliary power supply circuit, 230 V / 1 Ph / 50 Hz and 24 V / 1 Ph / 50 Hz; D Main switch; D fuses and thermal relays for protecting the compressors; D ors for the compressors with timers for star ---delta starting; D fuses, ors and thermal relays for protecting the pumps (optional); D MCBs for fans with modulating speed control; D manual operation through Microface controller; D volt---free s for remote indication of: --compressors in operation; --pump(s) in operation; --general alarm.

Packing Units are shipped with plastic film protection.

Warranty Clauses The warranty does not apply for any damage or malfunction that may occur during or as a result of operation outside of the application range. The warranty does not apply for freecooling units damaged by frost if the hydraulic circuit has not been charged with a water ---glycol mixture with suitable percentage for the min. temperatures in the installation site. The company is not responsible for damage due to incorrect or improper use of the product and it reserves the right to change technical specifications without any prior notice.

Final Tests and Reference Standards The units are designed, manufactured and tested in compliance with the European directives 98/37/CE (89/392/CEE; 91/368/CEE; 93/68/CEE), 89/336/CEE; 73/23/CEE; 97/23/CE. The Quality management system of the HPAC division is approved by LRQA in conformity with the norms ISO 9001:2000 and the product is the result of the activities performed according to the provisions in the processes, procedures and plans for the quality. The machine is supplied with a final test certificate and a declaration of conformity with the norms. All Liebert Hiross HPC ---L units are “

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

” marked.

5 -- 7

Mechanical Specifications Accessories Pumps group Available head pressure values are declared at the unit’s hydraulic connections and are referred to the nominal working conditions of each unit. Please us for different fluid flow rates or head pressures. All pumps can work with up to 35% ethylene glycol percentage by weight

Tab. 5b - Standard head pressure Model CA7 CB7 CL7 CQ7

R407C 081/080

087/086

093/092

100/099

107/106

115/114

122/121

131/130

140/139

Water flow

m3/h

152.2

159.6

171.3

179.7

199

208.3

227.4

251.5

263

Available pressure head

kPa

112

101

84

70

59

44

106

74

107

Water flow

m3/h

148.3

155

166.2

173.9

193.5

202.1

221.2

246.1

257.1

Available pressure head

kPa

119

107

92

80

66

54

115

81

114

Water flow

m3/h

153.4

160.8

176.3

185.1

195.9

204.7

229.8

240.6

251.3

Available pressure head Water flow Available pressure head

Pump rotor model Nominal motor power Noise level

(*)

Each pump weight

kPa

111

99

76

61

63

50

103

88

123

m3/h

142.9

149

164.3

171.8

180.8

188

214.3

---

---

kPa

126

117

95

83

85

76

125

---

---

---

80--- 160 / 147--- 127

80--- 160 / 153

80--- 160 / 163

kW

11

15

18.5

183

206

65

dB(A)

66

175

kg

(*) --- According to ISO 3744

Tab. 5c - High head pressure

R407C

Model CA7 CB7 CL7 CQ7

081/080

087/086

093/092

100/099

107/106

115/114

122/121

131/130

140/139

Water flow

m3/h

152.2

159.6

171.3

179.7

199

208.3

227.4

251.5

263

Available pressure head

kPa

179

167

148

133

118

102

159

123

131

Water flow

m3/h

148.3

155

166.2

173.9

193.5

202.1

221.2

246.1

257.1

Available pressure head

kPa

186

173

157

143

127

113

168

131

142

Water flow

m3/h

153.4

160.8

176.3

185.1

195.9

204.7

229.8

240.6

251.3

Available pressure head Water flow Available pressure head

Pump rotor model Nominal motor power Noise level

(*)

Each pump weight

kPa

177

165

139

123

123

108

155

139

153

m3/h

142.9

149

164.3

171.8

180.8

188

214.3

---

---

kPa

194

184

160

148

147

138

177

---

---

---

80--- 160 / 153

80--- 160 / 163

80--- 160 / 169

kW

15

18.5

22

dB(A)

65

66

68

kg

183

206

243

(*) --- According to ISO 3744

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 8

Mechanical Specifications Tab. 5d - Standard head pressure

R134a

Model CA4 CB4 CL4 CQ4

069/068

075/074

081/080

087/086

093/092

100/099

107/106

Water flow

m3/h

128.1

135.9

145.5

151.5

159.3

167.2

182.8

Available pressure head

kPa

133

120

125

116

105

92

80

Water flow

m3/h

125.9

133.5

142.6

148.3

155.7

163.4

179.1

Available pressure head

kPa

137

125

128

122

110

98

85

Water flow

m3/h

125.2

132.8

146.4

152.4

162.9

171.1

181.3

Available pressure head Water flow Available pressure head

Pump rotor model Nominal motor power Noise level

(*)

Each pump weight

kPa

137

125

124

115

99

87

82

m3/h

119.2

125.9

139.7

144.8

155.3

163.1

172.2

kPa

147

136

132

125

110

98

95

---

80--- 160 / 147--- 127

kW

11

dB(A)

65

kg

175

(*) --- According to ISO 3744

Tab. 5e - High head pressure

R134a

Model CA4 CB4 CL4 CQ4

069/068

075/074

081/080

087/086

093/092

100/099

107/106

Water flow

m3/h

128.1

135.9

145.5

151.5

159.3

167.2

182.8

Available pressure head

kPa

202

188

193

183

171

157

142

Water flow

m3/h

125.9

133.5

142.6

148.3

155.7

163.4

179.1

Available pressure head

kPa

206

193

196

189

176

163

148

Water flow

m3/h

125.2

132.8

146.4

152.4

162.9

171.1

181.3

Available pressure head Water flow Available pressure head

Pump rotor model Nominal motor power Noise level (*) Each pump weight

kPa

206

194

192

182

164

151

145

m3/h

119.2

125.9

139.7

144.8

155.3

163.1

172.2

kPa

216

206

201

193

176

164

159

---

80--- 160/153

kW

15

dB(A)

65

kg

183

(*) --- According to ISO 3744

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 9

Mechanical Specifications Anti ---Vibration mounts Rubber vibration ---damping s: These are ”bell” ---type s with a truncated ---conic shape. The is made up of a vulcanised rubber elastic element, on a metal body in galvanised steel with a base arranged for ground fixing. They are suitable to dampen the high frequencies and to limit the cross thrusts. Spring vibration ---damping : with 6/7 steel springs, UNI 3823 wire, built according to the UNI 7900 norms. The spring surfaces are protected by an anti ---corrosion cataphoresis treatment. The two spring containment plates are equipped with holes for ground fixing. Each plate is composed of a steel sheet, 4---5 mm thick, coated with elastomer by vulcanisation; this system prevents the high frequency vibrations from being transmitted through the spring turns. The surfaces feature anti ---slip deformable cylinders so that the can stand still due to the friction alone. 2 nylon tie rods, with galvanised steel bushes, enable locking of the springs between the bodies. They are suitable to dampen high and medium frequencies > 6 Hz, guaranteeing excellent efficiency.

Electronic expansion valve The electronic expansion valve used in the Liebert Hiross HPC ---L range enables accurate and min. possible control of the overheating of the gas sucked by the compressor under all load conditions, together with the operation at low condensation and high compressor choking. Under such application conditions a mechanical expansion valve can never reach the performance ensured by an electronic expansion valve (with energy benefits) nor the functional stability, above all during the transients of the load variations (with benefits as for reliability). The magnetic motor of the expansion valve guarantees superior advantages on the adjustment quality that cannot be obtained with other technologies used for this types of valves /stepped motors), such as: D continuous adjustment with unlimited adjustment positions; D extremely high positioning speed (< 1.0 sec for an adjustment 0---100%); D very accurate control on overheating; D microprocessor --- algorithms highly adjustable and adaptable for the most different load variations (transients). The final result of the application of the electro---magnetic expansion valve on Liebert Hiross HPC ---L is therefore an improved energy operating costs and a higher reliability, thanks to its special adjustment features above all on partial loads, conditions under which every chiller operates for most of the time.

Heat Recovery In all system types where chilled water and hot water are needed at the same time, it is energetically recommended to recover the condensation heat, which usually is dissipated in air through the finned coil. Please note that recovering condensation heat does not mean having a heat pump, namely a machine with refrigerating cycle suitably reversed according to the thermal load demand: the production of hot water, typically at temperatures of 40---55ûC, depends on the production of chilled water and, thus, if no refrigerating load is available and the compressor/s is/are off, if required, a different heat generator must be installed (standard boiler, boiler with electric heaters), anyway requiring a waste of energy. Depending on the quantity of obtained heat, the following qualifiers can be used for the achieved RECOVERY of partial heat recovery, when only the heat from the de ---overheating of the compressed gas is recovered (about 20---25% of the cooling capacity); All chillers equipped with heat recovery option --- either total or partial --- are standard equipped with the modulating condensing fan speed control (TRIAC type with phase cut, with EC type fans or inverter) driven by the Microface microprocessor.

Partial Heat Recovery (20%) It enables to recover up to 20% of the heat discharged by the unit to the condenser, see NO TAG. The system does not have any adjustment and is made up by plate heat exchangers installed on each circuit before the condenser. The exchangers are protected by a suitable anti ---freeze heater activated Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 10

Mechanical Specifications when the system is not working. It is recommended to install a safety valve in the hydraulic circuit to avoid hazards due to over ---pressures in case of water flow lack in the recuperator. The temperature of the water entering the recuperator (in steady operating conditions) must always be within the range 25---45ûC, the thermal difference in the range 3.5---8ûC.

Energy meter The electronic device is a full system enabling the following functions: D measuring and monitoring electrical values; D counting the used electric power; D protecting the system against electric supply quality problems.

Water inlet manifolds Some kits are available as option to aid the connection with the two evaporator inlet connections, thus making a single hydraulic connection point available. Namely: Cod. 486064 . . . . . . manifold kit for chiller without pumps from 2 x DN 125 to 1 x DN 150 (c/c distance 5500 mm)

Energy meter

Cod. 486065 . . . . . . manifold kit for chiller without pumps from 2 x DN 150 to 1 x DN 200 (c/c distance 5500 mm) Cod. 486066 . . . . . . manifold kit for chiller without pumps from 2 x DN 150 to 1 x DN 200 (c/c distance 6500 mm) Cod. 486067 . . . . . . manifold kit for chiller with pumps complete with shut---off valves on each pump: from 2 x DN 125 to 1 x DN 150 Cod. 486068 . . . . . . manifold kit for chiller with pumps complete with shut---off valves on each pump: from 2 x DN 150 to 1 x DN 200 Please note that if the hydraulic connection is carried out without such kits, it is necessary to arrange a symmetrical structure on the water inlet lines, so as to ensure the same water delivery on each connection of the evaporator. Further, if pumps are installed on the machine, without such kits also shut---off valves for each pump must be installed, so as to aid the ”Service” operations.

Other accessories The following accessories can be installed as options: D Coil---protecting mechanical filters (recommended to aid the coil maintenance ---cleaning). D Pump/evaporator heaters and lines needed to avoid the frost risk on such components. D High and low pressure gauges located in the compressor compartment (recommended to aid the unit control and maintenance). D Compressor power factor capacitors: they enable to get a Cosfì value equal to about 0.94 on the compressors, in rated operating conditions.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

5 -- 11

6 Controls

Controls Microprocessor Controls Microface Evolution Microface is the standard on ---board control and its advanced features secure system optimisation and energy savings. Full management of the Liebert Hiross HPC ---L units is granted by the on board control Microface Evolution, which allows the programming of temperature and pressure thresholds as well as the teamwork functionality through the proprietary Hirobus system. All the set---up can be done with a simple Operating Display that, through symbols and codes, ensures a reliable and flexible man ---machine interface. D The standard software of the Liebert Hiross HPC ---L Units includes special control algorithms that ensure real energy savings and enhance the reliability of the MICROFACE & HIROMATIC full system. D Immediate set---up can be available through the ”Unit Code” system. In case of re ---configuration needs, the full configuration of the unit and recalculation of all the thresholds levels (which depend on the refrigerant type) are available by simply enabling the configuration Unit Code. D Sequential auto---restart timer allows phased units restart after power failure. D Pumps’ durability is granted by a special auto---rotation start---up function. D The record of the working hours of compressors, pumps and freecooling is easily available via the local Microface display. D Auto---selection of the best control strategy at different ambient temperatures is implemented in order to assure an optimised usage of the compressors and condensers fans. D The ”Ambient compensation” function can be enabled to make the unit set---point rise automatically during warm periods, permitting energy savings. D For low noise versions with fanspeed control there is a special algorithm which, together with the compressor management, enables to keep the fan speed always to the minimum. D Compressors’ Run/Stop time management is implemented in order to obtain the optimisation of compressors’ operations either within the unit, or, in case of networking via Hirobus, within the whole of the Liebert Hiross HPC ---L Units system. D A special working mode can be established in combination with Emerson Network Power HPAC Units to obtain the so called ”Supersaver” system, that enhances the energy saving capabilities. Through a simple 2---wires connection the information on the cooling needs of the air conditioners is available to the Liebert Hiross HPC ---L units, that will manage its resources (compressors and freecooling) in the most efficient way in order to save additional energy. D All settings are protected through a 3---Level system. D Input for Remote on ---off and Volt---free s for simple remote monitoring of alarms and warnings are available. D Up to 16 Liebert Hiross HPC ---L units can be easily linked together on a network to provide teamwork mode, stand ---by operation and duty cycling without additional hardware. Reliability is not affected if there are problems on the data communication buses, because the units return automatically to the stand ---alone mode.

Technical data Microface Evolution D D D D D D D D D D

E2prom: . . . . . . . . . . . . . . . . . . . . . . 64 Kbit; Eprom/Flash memory: . . . . . . . . . . 1, 2 or 4 Mbit; RAM memory space: . . . . . . . . . . . . 256 Kbit; Anaput: . . . . . . . . . . . . . . . . . . 3 x Analog 0---10V; Digital Input: . . . . . . . . . . . . . . . . . . . 8 x Flexible Analog multi input; Analog Output: . . . . . . . . . . . . . . . . . 2 x Analog 0---10V; Digital output: . . . . . . . . . . . . . . . . . . 7 triacs output and 2+1 relay output; Time and date function buffered by an LI ---battery; Hirobus LAN connectors: . . . . . . . . 3 RJ45 sockets (to Microface and Hiromatic LAN and Slave ---Board and Microface Display); Hironet connectors: . . . . . . . . . . . . . 1 RJ9 socket for RS485 (direct connection to Emerson Network Power supervision systems).

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

6 -- 1

Controls Hiromatic Evolution for Liebert Hiross HPC---L Line All Emerson Network Power Liebert Hiross HPC ---L units are equipped with the latest electronic technology; one of the highlights is the new Hiromatic Evolution, with 32 Kbyte of buffered RAM to store data and with an integrated RS ---422/485 for the Hirolink communication manager connection. The new ergonomic design allows its use also as portable device, to be used for start---up and ”flying connections ”by service personnel. Hiromatic Evolution can locally manage up to 16 air units (or up to 8 when linked to supervision systems) connected via the high speed communication Hirobus cable. A multi ---language menu with on ---the ---fly language selection is available. Hiromatic Evolution offers the possibility to access all the connected units of the Microface LAN system from one point. D Hiromatic System Window: it allows to have the system operation status at a glance. D Self ---explanatory Icons: they are used for the Menu ---Layout of the Hiromatic Evolution. D Online Help: every single parameter has its own multi ---page explanation. D Status Report: of the latest 200 event---messages are stored for the system (which represent the summary of the reports of all the connected units) and 200 event---messages are available for each single unit. The unit status report is stored into the Microface memory and even if Hiromatic it is not connected, connecting one Hiromatic equipped with Liebert Hiross HPC ---L units SW it is possible to into the Hiromatic all the information present into each single Microface. D Four different Graphic Data Records: they are provided for each single unit: the temperature and humidity trends referring to the last 24 hours and 8 days.(Each unit’s record remains stored in Microface E and is ed by Hiromatic E).Hiromatic Evolution creates and saves its own Graphic Data Record with the average of all the units connected. D Timer Mode (electronic timer included in the Software) to select the time ---related functionality of the system. D Semi or Full Manual Mode software management including all safety devices. D A 4---Level s system: it safely protects all the settings.

Technical data Hiromatic Evolution D D D D D

Eprom/Flash memory: . . . . . . . . . . 2 or 4 Mbit; RAM memory space: . . . . . . . . . . . . 256 Kbit; Time and date function buffered by an LI ---battery; Hirobus Lan connectors: . . . . . . . . . 2 RJ45 sockets (to Microface); Hironet connectors: . . . . . . . . . . . . . 2 RJ9 socket for RS422/485 (Hirolink connection versus Supervision Systems).

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

6 -- 2

Controls Liebert Hiross HPC---L Connectivity Microface and Hiromatic Graphic allow Connectivity with superior levels of control and supervision systems:

Hirolink SMM: can send SMS messages of Microface and system alarms, indicating also the number of units connected in network. On message request the unit will answer in one sms---message with the most important values, such as: actual temperatures, setpoints, number of compressors in operation, condensing pressure, alarm status . . .

Hirovisor IP software: allows distance monitoring and telemaintenance, and also the storing in the personal computer of the graphics of water temperature trends and status reports for archiving purposes. Delivery of SMS and e ---mail is ed.

BMSs connections:

CONNECTIVITY

represent the communication manager which allow the integration of the Liebert Hiross HPC ---L units into the most diffused Building Management Systems. The most diffused are: MODBUS, LONWORK, SNMP.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

6 -- 3

7

Cooling Capacity Performance Tab. 7d --- CA7 100

Cooling Capacity Performance

Tab. 7a --- CA7 081 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

958 1019 1081 1146 1213 897 955 1014 1076 1139 830 885 941 999 1059 757 808 861 916 972

239 246 254 263 272 264 272 280 289 299 292 300 310 319 329 323 332 342 353 363

49 55 61 69 77 43 48 54 61 68 37 42 47 53 59 31 35 40 45 51

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1012 1075 1139 1206 1274 945 1004 1065 1128 1192 872 928 985 1044 1105 793 845 899 954

263 272 281 292 302 289 299 309 320 331 318 328 339 350 362 349 360 372 384

54 61 68 76 85 48 53 60 67 75 41 46 52 58 65 34 39 44 49

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1090 1157 1226 1296 1369 1016 1079 1144 1211 1279 937 996 1057 1119 1183 853 908 965 1023

284 294 304 316 328 310 321 332 344 357 339 351 362 375 388 370 382 395 408

60 68 75 84 94 53 59 66 74 82 45 51 57 64 71 38 43 48 54

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Tab. 7b --- CA7 087 Ta [°C]

25

30

35

40

Tab. 7c --- CA7 093 Ta [°C]

25

30

35

40

Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1143 1212 1282 1355 1429 1066 1131 1197 1265 1334 984 1044 1106 1170 1235 896 953 1010

308 319 331 343 357 338 349 362 375 390 371 384 397 411 426 408 422 436

66 74 82 92 102 58 65 72 81 89 50 56 62 69 77 42 47 52

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1253 1329 1407 1487 1569 1174 1246 1319 1394 1471 1090 1157 1226 1296 1368 1000 1062 1126 1192

318 330 342 355 368 350 362 375 388 403 387 399 413 427 442 429 442 457 472

55 61 69 77 85 49 54 61 68 75 42 47 53 59 66 36 40 45 50

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1314 1393 1475 1558 1644 1230 1305 1382 1461 1542 1140 1211 1283 1357 1433 1044 1110 1178

347 359 373 386 401 381 394 408 423 439 419 433 448 464 481 461 477 493

60 68 75 84 93 53 60 67 74 83 46 52 58 65 72 39 44 49

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Tab. 7e --- CA7 107 Ta [°C]

25

30

35

40

Tab. 7f --- CA7 115

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3) Pa: Compressors power absorbed 4) dPev: Evaporator pressure drop 5) Two: Leaving water temperature 6) Refrigerant: R 407C 7) Fluid: Water

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Ta [°C]

25

30

35

40

8) 9) 10) 11) 12) 13)

nT on evaporator: 5°C Power supply: 400V / 3Ph / 50Hz Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W Sea level: 0 m Rated in accordance with EN 12055 Interpolat. between points is permissible; extrapolat. is not permitted

7 -- 1

Cooling Capacity Performance Tab. 7g --- CA7 122 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1426 1514 1605 1699 1796 1337 1421 1508 1597 1689 1242 1322 1404 1488 1575 1140 1215 1292 1372

360 372 385 398 413 394 408 422 436 451 432 447 462 478 494 473 489 505 523

48 54 61 68 76 43 48 54 60 67 37 42 47 53 59 31 36 40 45

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1556 1654 1755 1860 1968 1468 1561 1657 1757 1860 1373 1462 1553 1648

363 375 387 400 414 400 412 425 439 453 440 453 467 482

57 64 72 81 90 51 57 65 72 81 45 51 57 64

5 7 9 11 13 5 7 9 11 13 5 7 9 11

25

30

35

40

Tab. 7h --- CA7 131 Ta [°C]

25

30

35

Tab. 7i --- CA7 140 Ta [°C]

25

30

35

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1626 1727 1832 1939 2050 1535 1631 1730 1832 1938 1437 1528 1622 1720

390 403 417 431 446 430 444 458 473 489 475 489 504 520

62 70 78 87 98 56 63 70 79 88 49 55 62 70

5 7 9 11 13 5 7 9 11 13 5 7 9 11

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3) 4)

Pa: Compressors power absorbed dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6)

Refrigerant: R 407C

7)

Fluid: Water

8) 9)

nT on evaporator: 5°C Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 2

Cooling Capacity Performance Tab. 7j --- CB7 081 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

939 998 1059 1121 1186 877 933 990 1049 1110 809 861 915 971 1028 734 784 834 886

246 254 263 272 281 272 281 290 300 310 301 310 320 330 341 332 343 353 365

47 53 59 66 74 41 46 52 58 65 35 40 45 50 56 29 33 38 42

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

990 1051 1113 1177 1242 922 979 1037 1097 1159 848 901 956 1012 1069 768 817 868

271 281 291 302 313 298 309 319 331 343 328 339 350 362 375 359 371 383

52 58 65 72 81 45 51 57 64 71 39 44 49 55 61 32 36 41

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1065 1129 1195 1262 1331 990 1050 1112 1175 1240 910 966 1024 1083 1143 824 877 931

293 303 315 327 340 320 331 343 356 370 349 361 374 387 402 381 393 407

58 64 72 80 89 50 56 63 70 78 43 48 54 60 66 35 40 45

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Tab. 7k --- CB7 087 Ta [°C]

25

30

35

40

Tab. 7l --- CB7 093 Ta [°C]

25

30

35

40

Tab. 7m --- CB7 100 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1115 1181 1248 1317 1387 1037 1099 1162 1226 1292 954 1011 1070 1130 1191 865 918

318 330 343 357 371 349 362 375 390 405 384 397 412 427 443 422 436

63 70 78 87 96 55 61 68 76 84 47 52 58 65 72 39 44

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1227 1300 1374 1451 1529 1147 1215 1285 1357 1430 1061 1125 1190 1257 1325 970 1029 1090

329 341 354 367 382 362 375 388 403 418 400 414 428 443 460 444 459 474

53 59 66 73 81 46 52 58 64 71 40 45 50 56 62 34 38 42

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1284 1360 1438 1518 1600 1199 1270 1344 1419 1496 1107 1175 1243 1314 1386 1010 1072

359 372 386 401 417 394 408 424 440 456 433 449 465 482 500 477 493

58 65 72 80 89 51 57 63 70 78 44 49 55 61 67 37 41

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Tab. 7n --- CB7 107 Ta [°C]

25

30

35

40

Tab. 7o --- CB7 115 Ta [°C]

25

30

35

40

Notes: 1) Ta: Outdoor temperature

8)

nT on evaporator: 5°C

2)

Pf: Cooling capacity

9)

Power supply: 400V / 3Ph / 50Hz

3) 4)

Pa: Compressors power absorbed dPev: Evaporator pressure drop

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m

5)

Two: Leaving water temperature

12) Rated in accordance with EN 12055

6)

Refrigerant: R 407C

13) Interpolat. between points is permissible; extrapolat. is not permitted

7)

Fluid: Water

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 3

Cooling Capacity Performance Tab. 7p --- CB7 122 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1396 1482 1570 1660 1753 1307 1387 1471 1556 1644 1210 1286 1365 1445 1528 1106 1178 1252 1328

371 384 398 413 428 407 421 436 452 468 445 461 477 494 512 487 504 521 540

47 52 58 65 72 41 46 51 57 64 35 40 45 50 56 30 34 38 42

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1531 1626 1724 1825 1930 1441 1531 1625 1721 1821 1345 1431 1519

373 386 399 413 428 411 424 438 453 468 452 466 481

55 62 70 78 87 49 55 62 70 78 43 49 55

5 7 9 11 13 5 7 9 11 13 5 7 9

25

30

35

40

Tab. 7q --- CB7 131 Ta [°C]

25

30

35

Tab. 7r --- CB7 140 Ta [°C]

25

30

35

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1599 1697 1798 1902 2009 1506 1599 1695 1793 1895 1407 1495 1586

402 416 430 445 462 443 458 473 489 506 490 505 521

60 68 76 84 94 54 60 68 75 84 47 53 60

5 7 9 11 13 5 7 9 11 13 5 7 9

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3) 4)

Pa: Compressors power absorbed dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6)

Refrigerant: R 407C

7)

Fluid: Water

8) 9)

nT on evaporator: 5°C Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 4

Cooling Capacity Performance Tab. 7s --- CL7 080 Ta [°C]

25

30

35

40 0

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

963 1024 1088 1154 1222 903 961 1021 1084 1148 836 891 948 1007 1068 763 815 869 924 982

236 244 252 260 269 261 269 277 286 295 289 298 307 316 326 320 329 339 349 360

49 55 62 70 78 44 49 55 62 69 38 43 48 54 60 32 36 41 46 51

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1018 1082 1147 1215 1284 951 1011 1073 1137 1202 879 935 993 1053 1115 800 853 908 964

261 269 279 288 299 287 296 306 316 327 315 325 336 347 359 346 357 368 380

55 62 69 77 86 48 54 61 68 76 41 47 53 59 66 35 39 44 50

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1115 1184 1256 1330 1407 1042 1108 1175 1245 1317 963 1025 1089 1155 1222 879 937 997 1058 1121

275 284 294 305 316 301 311 321 333 345 330 340 351 363 376 361 372 383 396 409

63 71 79 88 99 55 62 70 78 87 48 54 60 67 75 40 45 51 57 64

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7t --- CL7 086 Ta [°C]

25

30

35

40

Tab. 7u --- CL7 092 Ta [°C]

25

30

35

40

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3) Pa: Compressors power absorbed 4) dPev: Evaporator pressure drop 5) Two: Leaving water temperature 6) Refrigerant: R 407C 7) Fluid: Water

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 7v --- CL7 099 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1170 1242 1316 1393 1471 1094 1162 1232 1303 1377 1013 1076 1142 1209 1277 926 985 1046 1108

297 308 319 331 343 327 338 349 362 375 359 371 383 396 410 396 408 421 435

69 77 87 97 108 61 68 76 85 95 52 59 66 74 82 44 50 56 63

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1239 1313 1390 1468 1548 1159 1229 1300 1374 1449 1073 1138 1205 1274 1344 982 1043 1105

324 336 348 361 375 357 369 382 396 411 394 408 421 436 452 438 452 467

54 60 67 75 83 47 53 59 66 73 41 46 51 57 63 35 39 43

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1298 1376 1455 1537 1621 1213 1286 1361 1438 1517 1121 1190 1260 1332 1407 1024 1088

353 366 380 394 410 388 402 417 432 448 427 442 458 475 492 471 487

59 66 74 82 91 52 58 65 72 80 45 50 56 62 69 38 42

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Tab. 7w --- CL7 106 Ta [°C]

25

30

35

40

Tab. 7x --- CL7 114 Ta [°C]

25

30

35

40

8) 9) 10) 11) 12) 13)

nT on evaporator: 5°C Power supply: 400V / 3Ph / 50Hz Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W Sea level: 0 m Rated in accordance with EN 12055 Interpolat. between points is permissible; extrapolat. is not permitted

7 -- 5

Cooling Capacity Performance Tab. 7y --- CL7 121 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1438 1527 1619 1715 1813 1350 1435 1523 1613 1707 1255 1336 1419 1505 1593 1153 1229 1308 1389 1472

355 367 380 393 407 390 402 416 430 445 427 441 456 471 488 468 483 499 516 534

49 55 62 69 77 43 49 55 61 68 38 43 48 54 60 32 36 41 46 52

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1505 1597 1692 1790 1891 1414 1501 1591 1684 1780 1316 1399

384 397 411 426 442 422 437 451 467 484 465 480

54 60 67 75 84 48 53 60 67 74 41 47

5 7 9 11 13 5 7 9 11 13 5 7

25

30

35

40

Tab. 7z --- CL7 130 Ta [°C]

25

30

35

Tab. 7aa --- CL7 139 Ta [°C]

25

30

35

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1571 1666 1763 1863 1966 1476 1566 1658 1753 1851 1376 1460

414 429 444 461 478 457 472 489 506 524 505 521

58 65 73 81 90 52 58 65 72 80 45 51

5 7 9 11 13 5 7 9 11 13 5 7

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3) 4)

Pa: Compressors power absorbed dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6)

Refrigerant: R 407C

7)

Fluid: Water

8) 9)

nT on evaporator: 5°C Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 6

Cooling Capacity Performance Tab. 7ab --- CQ7 080 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

916 972 1030 1089 1150 852 904 959 1015 1072 781 831 882 934 987 704 751 798

256 265 274 284 295 283 292 302 313 324 312 323 334 345 357 345 356 368

45 50 56 62 69 39 44 49 55 61 33 37 42 47 52 27 31 35

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

963 1020 1079 1139 1201 892 946 1001 1057 1115 816 866 917 970 1023 734 780

282 293 304 315 328 310 321 333 345 359 340 352 365 378 392 373 385

49 55 61 68 76 43 48 53 59 66 36 40 45 50 55 30 33

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1057 1120 1185 1252 1320 981 1040 1101 1163 1226 899 955 1011 1069 1128 813 864 917

295 306 318 331 345 323 335 347 360 374 353 365 378 392 407 385 398 411

57 63 71 79 87 49 55 62 68 76 42 47 52 58 65 35 39 44

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9

Tab. 7ac --- CQ7 086 Ta [°C]

25

30

35

40

Tab. 7ad --- CQ7 092 Ta [°C]

25

30

35

40

Tab. 7ae --- CQ7 099 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1107 1172 1238 1306 1375 1027 1088 1150 1213 1277 942 999 1056 1114 1174 853 904

322 334 347 361 376 353 366 380 395 410 389 402 417 433 449 428 442

62 69 77 86 95 54 60 67 74 82 46 51 57 63 70 38 43

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1168 1234 1302 1370 1440 1084 1145 1208 1272 1337 994 1051 1109 1168

353 367 382 397 414 390 404 420 437 455 432 448 465 483

48 53 59 66 72 42 46 52 57 63 35 40 44 48

5 7 9 11 13 5 7 9 11 13 5 7 9 11

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1218 1287 1357 1429 1502 1128 1193 1258 1325 1393 1033 1093 1153

386 402 418 436 454 424 441 459 478 498 467 485 504

52 58 65 71 79 45 50 56 61 67 38 42 47

5 7 9 11 13 5 7 9 11 13 5 7 9

Tab. 7af --- CQ7 106 Ta [°C]

25

30

35

Tab. 7ag --- CQ7 114 Ta [°C]

25

30

35

Notes: 1) Ta: Outdoor temperature

8)

nT on evaporator: 5°C

2)

Pf: Cooling capacity

9)

Power supply: 400V / 3Ph / 50Hz

3) 4)

Pa: Compressors power absorbed dPev: Evaporator pressure drop

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m

5)

Two: Leaving water temperature

12) Rated in accordance with EN 12055

6)

Refrigerant: R 407C

13) Interpolat. between points is permissible; extrapolat. is not permitted

7)

Fluid: Water

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 7

Cooling Capacity Performance Tab. 7ah --- CQ7 121 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1365 1447 1531 1617 1705 1273 1350 1429 1510 1593 1174 1246 1320 1397 1475 1068 1136

383 398 413 429 446 420 436 452 469 487 460 477 494 513 533 502 520

44 50 55 62 68 39 44 49 54 60 33 37 42 47 51 28 31

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5) 6)

Two: Leaving water temperature Refrigerant: R 407C

7)

Fluid: Water

8)

nT on evaporator: 5°C

9)

Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 8

Cooling Capacity Performance Tab. 7ai --- CA4 069 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

778 831 887 943 1002 738 789 843 898 953 696 745 795 848 903 651 697 745 795 847

161 165 170 175 181 174 179 185 190 196 190 195 201 206 213 207 213 218 225 231

48 55 62 70 78 44 50 56 63 71 39 44 50 57 64 34 39 45 50 57

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

825 881 937 996 1058 784 837 892 948 1007 740 790 843 898 953 693 741 791 843 897

175 180 185 190 196 191 196 202 207 214 210 215 221 227 233 230 236 242 249 256

54 61 69 78 87 49 56 63 70 79 44 50 56 64 71 39 44 50 57 64

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7aj --- CA4 075 Ta [°C]

25

30

35

40

Tab. 7ak --- CA4 081 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

884 943 1004 1067 1130 840 896 954 1015 1077 792 846 901 959 1019 742 793 846 901 958

191 196 202 208 214 210 216 222 228 235 232 238 244 251 258 256 262 269 276 284

39 44 50 56 63 35 40 45 51 57 32 36 41 46 52 28 32 36 41 46

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

925 986 1049 1113 1181 876 935 995 1058 1122 825 881 939 999 1061 770 824 879 936 995

208 215 222 230 238 227 234 242 250 258 248 256 264 272 281 272 280 288 297 307

43 48 54 61 68 38 44 49 55 62 34 39 44 50 56 30 34 39 44 49

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

973 1038 1103 1172 1244 922 984 1048 1112 1181 867 926 987 1051 1115 808 865 924 984 1047

222 230 238 247 256 240 248 257 266 275 260 269 278 287 297 283 292 302 312 323

47 53 60 67 76 42 48 54 61 69 38 43 49 55 62 33 38 43 48 55

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7al --- CA4 087 Ta [°C]

25

30

35

40

Tab. 7am --- CA4 093 Ta [°C]

25

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6) 7)

Refrigerant: R 134a Fluid: Water

8)

nT on evaporator: 5°C

9)

Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

30

35

40

7 -- 9

Cooling Capacity Performance Tab. 7an --- CA4 100 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1023 1090 1157 1228 1302 969 1033 1097 1165 1236 911 972 1035 1099 1166 851 909 969 1031 1093

235 244 252 261 270 255 264 273 282 292 278 288 297 307 318 305 315 326 337 348

52 58 66 74 83 46 53 60 67 75 42 47 53 60 67 37 42 47 53 59

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

25

30

35

40

Tab. 7ao --- CA4 107 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1109 1181 1257 1335 1415 1055 1122 1194 1269 1346 996 1062 1129 1200 1273 934 997 1063 1128 1197

240 248 255 264 272 261 269 277 286 295 286 294 303 313 323 315 324 334 344 355

48 54 61 68 76 43 49 55 62 69 39 44 49 56 63 34 39 44 50 56

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5) 6)

Two: Leaving water temperature Refrigerant: R 134a

7)

Fluid: Water

8)

nT on evaporator: 5°C

9) Power supply: 400V / 3Ph / 50Hz 10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 10

Cooling Capacity Performance Tab. 7ap --- CB4 069 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

767 819 873 928 986 727 777 828 882 936 684 732 781 832 885 638 684 730 779 829

164 169 175 180 186 178 184 189 195 201 194 200 206 212 218 212 218 224 231 237

47 53 60 67 76 42 48 54 62 69 38 43 49 55 62 33 38 43 48 55

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

814 868 922 980 1040 771 823 877 931 988 726 776 827 880 933 679 726 774 825 877

179 185 190 196 202 196 202 208 214 220 215 221 227 234 241 236 243 249 256 264

53 59 67 75 84 48 54 61 68 77 42 48 54 61 69 37 42 48 54 61

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7aq --- CB4 075 Ta [°C]

25

30

35

40

Tab. 7ar --- CB4 081 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

871 928 987 1048 1110 825 880 936 995 1055 777 829 883 939 996 727 776 827 880 935

197 203 209 215 221 217 223 229 236 243 239 245 252 259 267 263 270 278 286 294

38 43 48 54 61 34 39 44 49 55 31 35 39 44 49 27 31 35 39 44

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

909 968 1030 1092 1157 860 916 975 1036 1097 807 862 918 976 1036 753 804 857 912 969

214 221 229 237 246 234 241 249 258 267 256 264 272 281 291 280 289 298 307 318

41 47 53 59 66 37 42 47 53 60 33 37 42 48 53 29 33 37 42 47

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

956 1019 1084 1149 1218 903 963 1026 1090 1154 848 905 964 1026 1088 789 844 900 958 1019

228 236 245 254 264 246 255 264 274 284 267 277 286 297 307 291 301 312 323 334

45 51 58 65 73 41 46 52 59 66 36 41 46 52 59 32 36 41 46 51

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7as --- CB4 087 Ta [°C]

25

30

35

40

Tab. 7at --- CB4 093 Ta [°C]

25

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6) 7)

Refrigerant: R 134a Fluid: Water

8)

nT on evaporator: 5°C

9)

Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

30

35

40

7 -- 11

Cooling Capacity Performance Tab. 7au --- CB4 100 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1004 1069 1133 1202 1273 947 1010 1074 1138 1206 891 949 1010 1073 1136 830 886 943 1002 1064

242 251 260 269 280 263 272 282 292 303 287 297 308 319 330 315 326 337 350 362

50 56 63 71 79 45 51 57 64 72 40 45 51 57 64 35 40 45 50 56

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

25

30

35

40

Tab. 7av --- CB4 107 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1091 1161 1234 1309 1387 1036 1101 1171 1243 1317 976 1041 1105 1173 1243 914 975 1038 1100 1167

247 255 263 272 281 269 277 286 296 306 295 304 313 324 335 325 335 346 357 369

46 52 59 66 74 42 47 53 59 67 37 42 48 53 60 33 37 42 47 53

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5) 6)

Two: Leaving water temperature Refrigerant: R 134a

7)

Fluid: Water

8)

nT on evaporator: 5°C

9) Power supply: 400V / 3Ph / 50Hz 10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 12

Cooling Capacity Performance Tab. 7aw --- CL4 068 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

764 816 870 924 981 724 773 825 878 931 681 728 777 827 879 635 680 726 774 823

165 170 176 181 187 180 185 191 197 203 195 201 207 213 220 213 219 226 232 239

47 53 60 67 75 42 48 54 61 68 38 43 48 54 61 33 38 42 48 54

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

810 864 918 975 1035 768 819 872 926 983 723 772 822 875 927 675 721 769 819 870

181 186 192 198 204 198 203 209 216 222 217 223 229 236 243 238 245 251 259 266

52 59 66 74 84 47 53 60 67 76 42 48 54 61 68 37 42 47 54 60

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7ax --- CL4 074 Ta [°C]

25

30

35

40

Tab. 7ay --- CL4 080 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

889 948 1009 1073 1137 844 901 960 1021 1084 796 851 907 965 1026 747 798 852 907 965

189 194 200 205 211 208 214 219 225 232 230 236 242 248 255 254 260 266 273 281

40 45 50 57 64 36 41 46 52 58 32 36 41 46 52 28 32 37 41 46

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

930 991 1055 1120 1188 881 940 1002 1065 1129 830 886 945 1006 1069 775 829 885 943 1003

207 213 220 227 235 225 232 239 247 255 246 253 261 269 278 270 278 286 294 304

43 49 55 62 69 39 44 50 56 63 35 39 45 50 57 30 35 39 45 50

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

991 1058 1125 1197 1272 940 1004 1071 1138 1210 885 947 1011 1077 1144 827 886 947 1010 1076

216 223 231 240 249 233 241 249 257 266 253 261 269 278 288 276 284 293 302 312

49 55 62 70 79 44 50 57 64 72 39 45 51 57 65 35 39 45 51 58

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7az --- CL4 086 Ta [°C]

25

30

35

40

Tab. 7ba --- CL4 092 Ta [°C]

25

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6) 7)

Refrigerant: R 134a Fluid: Water

8)

nT on evaporator: 5°C

9)

Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

30

35

40

7 -- 13

Cooling Capacity Performance Tab. 7bb --- CL4 099 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1043 1111 1183 1257 1334 989 1056 1122 1194 1268 932 995 1061 1128 1198 872 932 995 1060 1125

228 236 244 252 261 248 255 263 272 281 270 278 287 296 306 296 305 314 324 335

54 61 69 77 87 49 55 62 70 79 43 49 56 63 71 38 44 49 56 63

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

25

30

35

40

Tab. 7bc --- CL4 106 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1103 1174 1249 1326 1406 1048 1114 1185 1259 1335 988 1054 1119 1189 1261 926 988 1052 1116 1185

243 250 258 266 275 264 272 281 290 299 289 298 307 317 328 319 329 339 350 361

47 53 60 67 75 43 48 54 61 68 38 43 49 55 61 34 38 43 49 54

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5) 6)

Two: Leaving water temperature Refrigerant: R 134a

7)

Fluid: Water

8)

nT on evaporator: 5°C

9) Power supply: 400V / 3Ph / 50Hz 10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 14

Cooling Capacity Performance Tab. 7bd --- CQ4 068 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

735 784 834 885 937 694 739 787 836 886 649 693 737 783 831 602 643 685 728 773

175 181 188 194 201 191 197 204 211 218 208 214 221 229 237 227 234 242 249 258

43 49 55 62 69 39 44 49 55 62 34 39 44 49 55 30 34 38 43 48

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

778 828 879 931 986 734 781 830 881 931 687 732 778 826 875 638 681 724 769 815

194 200 207 214 221 212 219 226 234 242 233 240 248 256 264 255 263 271 280 289

48 54 61 68 76 43 49 55 61 68 38 43 49 54 60 33 38 42 47 53

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7be --- CQ4 074 Ta [°C]

25

30

35

40

Tab. 7bf --- CQ4 080 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

857 912 970 1029 1090 810 863 918 975 1033 762 812 864 917 973 711 758 807 858 910

203 209 215 222 229 223 230 237 244 252 246 253 261 269 277 271 279 287 296 305

37 42 47 52 59 33 37 42 47 53 29 34 38 42 47 26 29 33 37 42

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

893 951 1011 1072 1133 843 898 955 1013 1074 790 842 896 952 1009 734 783 835 887 941

220 228 236 245 254 241 249 257 266 276 263 272 281 291 301 289 298 308 318 330

40 45 50 57 63 36 40 45 51 57 32 36 40 45 51 28 31 35 40 44

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

956 1019 1084 1149 1218 903 962 1025 1089 1153 846 903 962 1024 1086 786 841 897 955 1015

228 236 245 254 264 246 255 264 274 285 268 277 287 297 308 292 302 313 324 336

45 51 58 65 73 41 46 52 59 66 36 41 46 52 59 31 36 41 46 51

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Tab. 7bg --- CQ4 086 Ta [°C]

25

30

35

40

Tab. 7bh --- CQ4 092 Ta [°C]

25

Notes: 1) Ta: Outdoor temperature 2) Pf: Cooling capacity 3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5)

Two: Leaving water temperature

6) 7)

Refrigerant: R 134a Fluid: Water

8)

nT on evaporator: 5°C

9)

Power supply: 400V / 3Ph / 50Hz

10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

30

35

40

7 -- 15

Cooling Capacity Performance Tab. 7bi --- CQ4 099 Ta [°C]

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1004 1069 1133 1202 1274 948 1009 1073 1137 1205 889 947 1008 1070 1133 827 883 940 999 1060

242 251 260 269 280 263 273 282 292 303 288 298 309 320 331 317 327 339 351 364

50 56 63 71 79 45 51 57 64 72 40 45 51 57 64 35 39 44 50 55

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

25

30

35

40

Tab. 7bj --- CQ4 106 Ta [°C]

25

30

35

40

Pf [kW]

Pa [kW]

dPev [kPa]

Two [°C]

1061 1125 1194 1265 1338 1002 1066 1129 1196 1265 940 1001 1063 1124 1189 876 933 991 1051 1110

259 268 277 287 298 283 293 303 314 326 311 322 334 346 359 345 357 370 383 398

44 49 55 62 69 39 44 50 55 62 35 39 44 49 55 30 34 38 43 48

5 7 9 11 13 5 7 9 11 13 5 7 9 11 13 5 7 9 11 13

Notes: 1) Ta: Outdoor temperature 2)

Pf: Cooling capacity

3)

Pa: Compressors power absorbed

4)

dPev: Evaporator pressure drop

5) 6)

Two: Leaving water temperature Refrigerant: R 134a

7)

Fluid: Water

8)

nT on evaporator: 5°C

9) Power supply: 400V / 3Ph / 50Hz 10) Evaporator fouling factor: 0,43 x 10 -4 m2 °C / W 11) Sea level: 0 m 12) Rated in accordance with EN 12055 13) Interpolat. between points is permissible; extrapolat. is not permitted

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

7 -- 16

8

Hydraulic Features and Performance Adjustment Factors Hydraulic Features

Hydraulic Features and Performance Adjustment Factors

Hydraulic Pressure Drop CA7-CB7-CL7-CQ7 - Pressure Drop (R407C - Chiller) 100 90 80

080 - 087

70 60

Pressure drop (kPa)

50 40 092 - 100 30 106 - 115 20

Models 121 - 140

080 - 087 092 - 100 10

106 - 115

10

20

30

40

50

60

70 80 90 100

Water flow (l/s)

121 - 140

CA4-CB4-CL4-CQ4 - Pressure Drop (R134a - Chiller) 100 90 80

080 - 100

70 60

Pressure drop (kPa)

50 068 - 075 40

30

106 - 107 20

Models 068 - 075 080 - 100 106 - 107

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

10 10

20

30

40

50

60

70 80 90 100

Water flow (l/s)

8 -- 1

Hydraulic Features and Performance Adjustment Factors Pumps Pressure Diagrams (internal hydraulic pressure drops included) Note: The available net pressure (m) is referred to column of water / mixture water-glycol.

Mod. R407C - CA7 - CB7 - CL7 - CQ7 Standard pressure pump (R407C - Chiller version) 30

Available net pressure (m)

25

20 080-087 15

092-100 106-115

10

121-131 139-140

5

0 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 Water flow (mc/h)

Mod. R407C - CA7 - CB7 - CL7 - CQ7 High pressure pump (R407C - Chiller version) 35

Available net pressure (m)

30 25 080-087 092-100

20

106-115 15

121-131 139-140

10 5 0 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270

Water flow (mc/h)

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

8 -- 2

Hydraulic Features and Performance Adjustment Factors Mod. R134a - CA4 - CB4 - CL4 - CQ4

Standard pressure pump (R134a - Chiller version)

Available net pressure (m)

25

20

15

068-075 080-100 106-107

10

5

0 80

90

100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 Water flow (mc/h)

Mod. R134a - CA4 - CB4 - CL4 - CQ4

High pressure pump (R134a - Chiller version) 30

Available net pressure (m)

25

20 068-075 080-100

15

106-107 10

5

0 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Water flow (mc/h)

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

8 -- 3

Hydraulic Features and Performance Adjustment Factors Hydraulic Features and Performance Adjustment Factors

Correction Factors Glycol mixture correction factors The water glycol mixtures are used as a thermal carrier fluid, in very cold climates with temperatures below 0 ûC. The use of low freezing point mixtures causes a modification in the main thermodynamic properties of the units. The main parameters affected by the use of glycol mixtures are the following: D Cooling capacity D Mixture volumetric flow D Pressure drop D Compressor power input In the table below are reported correction factors referred to the most common ethylene glycol mixtures. Tab. 8a --- Chiller table Ethylene glycol [% in weight] Freezing temperature Refrigeration capacity correcting factor Mixture volume flow rate correcting factor Mixture side pressure drop correcting factor Compressor power input correcting factor

°C F3 F4 F5 F6

0

10

20

30

40

50

0 1 1 1 1

--- 4,4 0,987 1,046 1,053 0,955

--- 9,9 0,977 1,080 1,109 0,990

--- 16,6 0,969 1,098 1,168 0,990

--- 25,2 0,958 1,150 1,234 0,985

--- 37,2 0,950 1,210 1,311 0,975

Tab. 8b --- Superchiller table Ethylene glycol [% in weight] Freezing temperature Refrigeration capacity correcting factor Mixture volume flow rate correcting factor Mixture side pressure drop correcting factor Compressor power input correcting factor

°C F3 F4 F5 F6

0

10

20

30

40

50

0 1,032 0,911 0,856 1,010

--- 4,4 1,023 0,926 0,902 1,010

--- 9,9 1,013 0,956 0,950 1,005

--- 16,6 1 1 1 1

--- 25,2 0,989 1,048 1,056 0,995

--- 37,2 0,981 1,102 1,122 0,985

We indicate as R0, V0, P0 respectively the unit capacity, volumetric flow rate and compressor power input with 0% ethylene glycol on Chiller models or 30% ethylene glycol on Superchiller models; when we use glycol mixtures with different % with the same inlet and outlet temperatures at the evaporator, the performance will vary as follows: D Refrigeration capacity = R0 x F3 D Volumetric flow rate = V0 x F3 x F4 D Mixture pressure drop = DP1 x F5, where DP1 is the unit water pressure drop for the new volumetric mixture flow rate D Compressor power input = P0 x F6

Fouling: Correction factors Tab. 8c --- Fouling correction factors Fouling factors [10 --- 4 m2 °C/W]

0 0,43 0,88 0,176 0,352

Correction factors F1a refrigeration capacity correction factor

F2a compressor power input correction factor

1,015 1 0,985 0,960 0,915

1,005 1 0,995 0,985 0,965

Unit performance reported in the tables are given for the condition exchanger with fouling factor corresponding at 0,43 10 ---4 m2 ûC / W. For different fouling factor values, performances should be corrected with the correction factors shown above.

Sea level: Correction factors Tab. 8d --- Sea level correction factors Elevation above sea level [meters]

0 600 1200 1800

Correction factors F1b refrigeration capacity correction factor

F2b compressor power input correction factor

1 0,997 0,993 0,988

1 1,004 1,007 1,015

Unit performance reported in the tables are given for sea level conditions. For different altitude, performances should be corrected with the correction factors shown above. Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

8 -- 4

9

Sound Levels

Sound Levels

Sound Pressure and Power Levels SPL The values of Sound Pressure Level SPL for every octave band frequency, measured with unit on full load operation, at nominal working conditions (condenser water inlet/outlet temperature 30/35_C, evaporator water inlet/outlet temperature 12/7_C), free field conditions and 1 m from unit in according to ISO 3744 average method are indicated in the following tables.

PWL The values of Power Level PWL for every octave band frequency, with unit on full load operation, at nominal working conditions (condenser water inlet/outlet temperature 30/35_C, evaporator water inlet/outlet temperature 12/7_C), calculated in according to ISO 3744 procedure method are indicated in the following tables. Tab. 9a --- SPL --- CA7 --- CA4 Models

Octave band frequency [Hz] 63

125

250

500

1000

2000

4000

8000

Total [dB(A)]

“SPL” Sound pressure levels [dB] CA4 069

73.0

84.0

81.0

79.0

78.0

77.0

74.0

65.0

83.5

CA4 075

73.0

84.0

81.0

79.0

78.0

77.0

74.0

65.0

83.5

CA7 081 --- CA4 081

73.0

84.0

81.0

79.0

78.0

77.0

74.0

65.0

83.5

CA7 087 --- CA4 087

73.0

84.0

81.0

79.0

78.0

77.0

74.0

65.0

83.5

CA7 093 --- CA4 093

73.0

83.0

82.0

80.0

79.0

77.0

74.0

65.0

84.0

CA7 100 --- CA4 100

73.0

83.0

82.0

80.0

79.0

77.0

74.0

65.0

84.0

CA7 107 --- CA4 107

74.0

84.0

83.0

81.0

79.0

77.0

75.0

65.0

84.5

CA7 115

74.0

84.0

83.0

81.0

79.0

77.0

75.0

65.0

84.5

CA7 122

74.0

84.0

83.0

82.0

80.0

77.0

75.0

65.0

85.0

CA7 131

75.0

85.0

84.0

83.0

81.0

78.0

76.0

65.0

86.0

CA7 140

75.0

85.0

84.0

83.0

81.0

78.0

76.0

65.0

86.0

Note: Sound pressure levels tolerance for each octave band: --- 0/+2 dB

Tab. 9b --- PWL --- CA7 --- CA4 Models

Octave band frequency [Hz] 63

125

250

500

1000

2000

4000

8000

Total [dB(A)]

“PWL” Sound power levels [dB] CA4 069

94.0

105.0

102.0

100.0

99.0

98.0

95.0

86.0

104.5

CA4 075

94.0

105.0

102.0

100.0

99.0

98.0

95.0

86.0

104.5

CA7 081 --- CA4 081

94.0

105.0

102.0

100.0

99.0

98.0

95.0

86.0

104.5

CA7 087 --- CA4 087

94.0

105.0

102.0

100.0

99.0

98.0

95.0

86.0

104.5

CA7 093 --- CA4 093

94.0

104.0

103.0

101.0

100.0

98.0

95.0

86.0

105.0

CA7 100 --- CA4 100

94.0

104.0

103.0

101.0

100.0

98.0

95.0

86.0

105.0

CA7 107 --- CA4 107

95.0

105.0

104.0

102.0

100.0

98.0

96.0

86.0

105.5

CA7 115

95.0

105.0

104.0

102.0

100.0

98.0

96.0

86.0

105.5

CA7 122

96.0

106.0

105.0

104.0

102.0

99.0

97.0

87.0

106.5

CA7 131

97.0

107.0

106.0

105.0

103.0

100.0

98.0

87.0

108.0

CA7 140

97.0

107.0

106.0

105.0

103.0

100.0

98.0

87.0

108.0

Note: Sound power levels tolerance for each octave band: --- 0/+2 dB

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

9 -- 1

Sound Levels Tab. 9c --- SPL --- CB7 --- CB4 Models

Octave band frequency [Hz] 63

125

250

500

1000

CB4 069

71.0

81.0

81.0

79.0

73.0

CB4 075

71.0

81.0

81.0

79.0

73.0

CB7 081 --- CB4 081

71.0

81.0

81.0

79.0

CB7 087 --- CB4 087

71.0

81.0

81.0

79.0

CB7 093 --- CB4 093

72.0

81.0

82.0

CB7 100 --- CB4 100

72.0

81.0

CB7 107 --- CB4 107

72.0

82.0

CB7 115

72.0

CB7 122 CB7 131 CB7 140

2000

Total [dB(A)]

4000

8000

68.0

60.0

50.0

79.5

68.0

60.0

50.0

79.5

73.0

68.0

60.0

50.0

79.5

73.0

68.0

60.0

50.0

79.5

79.0

74.0

69.0

61.0

51.0

80.0

82.0

79.0

74.0

69.0

61.0

51.0

80.0

82.0

79.0

75.0

70.0

63.0

51.0

80.5

82.0

82.0

79.0

75.0

70.0

63.0

51.0

80.5

73.0

83.0

82.0

80.0

75.0

71.0

64.0

52.0

81.0

73.0

84.0

82.0

81.0

77.0

71.0

65.0

52.0

82.0

73.0

84.0

82.0

81.0

77.0

71.0

65.0

52.0

82.0

2000

4000

8000

“SPL” Sound pressure levels [dB]

Note: Sound pressure levels tolerance for each octave band: --- 0/+2 dB

Tab. 9d --- PWL --- CB7 --- CB4 Models

Octave band frequency [Hz] 500

1000

Total [dB(A)]

63

125

250

CB4 069

92.0

102.0

102.0

100.0

94.0

89.0

81.0

71.0

100.5

CB4 075

92.0

102.0

102.0

100.0

94.0

89.0

81.0

71.0

100.5

CB7 081 --- CB4 081

92.0

102.0

102.0

100.0

94.0

89.0

81.0

71.0

100.5

CB7 087 --- CB4 087

92.0

102.0

102.0

100.0

94.0

89.0

81.0

71.0

100.5

CB7 093 --- CB4 093

93.0

102.0

103.0

100.0

95.0

90.0

82.0

72.0

101.0

CB7 100 --- CB4 100

93.0

102.0

103.0

100.0

95.0

90.0

82.0

72.0

101.0

CB7 107 --- CB4 107

93.0

103.0

103.0

100.0

96.0

91.0

84.0

72.0

101.5

CB7 115

93.0

103.0

103.0

100.0

96.0

91.0

84.0

72.0

101.5

CB7 122

94.5

104.5

103.5

101.5

96.5

92.5

85.5

73.5

102.5

CB7 131

95.0

106.0

104.0

103.0

99.0

93.0

87.0

74.0

104.0

CB7 140

95.0

106.0

104.0

103.0

99.0

93.0

87.0

74.0

104.0

“PWL” Sound power levels [dB]

Note: Sound power levels tolerance for each octave band: --- 0/+2 dB

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

9 -- 2

Sound Levels Tab. 9e --- SPL --- CL7 --- CL4 Models

Octave band frequency [Hz] 63

125

250

500

1000

CL4 068

70.0

76.0

76.0

70.0

68.0

CL4 074

70.0

76.0

76.0

70.0

68.0

CL7 080 --- CL4 080

70.0

77.0

76.0

70.0

CL7 086 --- CL4 086

70.0

77.0

76.0

70.0

CL7 092 --- CL4 092

70.0

79.0

76.0

CL7 099 --- CL4 099

70.0

79.0

CL7 106 --- CL4 106

70.0

79.0

CL7 114

70.0

CL7 121 CL7 130 CL7 139

2000

Total [dB(A)]

4000

8000

62.0

54.0

47.0

73.0

62.0

54.0

47.0

73.0

69.0

63.0

55.0

47.0

73.5

69.0

63.0

55.0

47.0

73.5

71.0

69.0

64.0

56.0

48.0

74.0

76.0

71.0

69.0

64.0

56.0

48.0

74.0

76.0

71.0

69.0

64.0

56.0

48.0

74.0

79.0

76.0

71.0

69.0

64.0

56.0

48.0

74.0

71.0

79.0

77.0

72.0

70.0

65.0

58.0

49.0

75.0

71.0

79.0

77.0

72.0

70.0

65.0

58.0

49.0

75.0

71.0

79.0

77.0

72.0

70.0

65.0

58.0

49.0

75.0

2000

4000

8000

“SPL” Sound pressure levels [dB]

Note: Sound pressure levels tolerance for each octave band: --- 0/+2 dB

Tab. 9f --- PWL --- CL7 --- CL4 Models

Octave band frequency [Hz] 500

1000

Total [dB(A)]

63

125

250

CL4 068

91.0

97.0

97.0

91.0

89.0

83.0

75.0

68.0

94.0

CL4 074

91.0

97.0

97.0

91.0

89.0

83.0

75.0

68.0

94.0

CL7 080 --- CL4 080

91.0

98.0

97.0

91.0

90.0

84.0

76.0

68.0

94.5

CL7 086 --- CL4 086

91.0

98.0

97.0

91.0

90.0

84.0

76.0

68.0

94.5

CL7 092 --- CL4 092

91.5

100.5

97.5

92.5

90.5

85.5

77.5

69.5

95.5

CL7 099 --- CL4 099

91.5

100.5

97.5

92.5

90.5

85.5

77.5

69.5

95.5

CL7 106 --- CL4 106

91.5

100.5

97.5

92.5

90.5

85.5

77.5

69.5

95.5

CL7 114

91.5

100.5

97.5

92.5

90.5

85.5

77.5

69.5

95.5

CL7 121

93.0

101.0

99.0

94.0

92.0

87.0

80.0

71.0

97.0

CL7 130

93.0

101.0

99.0

94.0

92.0

87.0

80.0

71.0

97.0

CL7 139

93.0

101.0

99.0

94.0

92.0

87.0

80.0

71.0

97.0

“PWL” Sound power levels [dB]

Note: Sound power levels tolerance for each octave band: --- 0/+2 dB

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

9 -- 3

Sound Levels Tab. 9g --- SPL --- CQ7 --- CQ4 Models

Octave band frequency [Hz] 63

125

250

500

1000

CQ4 068

67.0

67.0

65.0

64.0

60.0

CQ4 074

67.0

67.0

65.0

64.0

60.0

CQ7 080 --- CQ4 080

67.0

68.0

65.0

65.0

CQ7 086 --- CQ4 086

67.0

68.0

65.0

65.0

CQ7 092 --- CQ4 092

68.0

68.0

66.0

CQ7 099 --- CQ4 099

68.0

68.0

CQ7 106 --- CQ4 106

68.0

68.0

CQ7 114

68.0

CQ7 121

68.0

2000

Total [dB(A)]

4000

8000

54.0

47.0

42.0

65.0

54.0

47.0

42.0

65.0

60.0

54.0

47.0

42.0

65.5

60.0

54.0

47.0

42.0

65.5

65.0

61.0

55.0

47.0

42.0

66.0

66.0

65.0

61.0

55.0

47.0

42.0

66.0

66.0

65.0

61.0

55.0

47.0

42.0

66.0

68.0

66.0

65.0

61.0

55.0

47.0

42.0

66.0

69.0

67.0

66.0

62.0

56.0

48.0

42.0

67.0

“SPL” Sound pressure levels [dB]

Note: Sound pressure levels tolerance for each octave band: --- 0/+2 dB

Tab. 9h --- PWL --- CQ7 --- CQ4 Models

Octave band frequency [Hz] 63

125

250

500

1000

2000

4000

8000

Total [dB(A)]

“PWL” Sound power levels [dB] CQ4 068

88.0

88.0

86.0

85.0

81.0

75.0

68.0

63.0

86.0

CQ4 074

88.0

88.0

86.0

85.0

81.0

75.0

68.0

63.0

86.0

CQ7 080 --- CQ4 080

88.0

89.0

86.0

86.0

81.0

75.0

68.0

63.0

86.5

CQ7 086 --- CQ4 086

88.0

89.0

86.0

86.0

81.0

75.0

68.0

63.0

86.5

CQ7 092 --- CQ4 092

89.5

89.5

87.5

86.5

82.5

76.5

68.5

63.5

87.5

CQ7 099 --- CQ4 099

89.5

89.5

87.5

86.5

82.5

76.5

68.5

63.5

87.5

CQ7 106 --- CQ4 106

89.5

89.5

87.5

86.5

82.5

76.5

68.5

63.5

87.5

CQ7 114

89.5

89.5

87.5

86.5

82.5

76.5

68.5

63.5

87.5

CQ7 121

90.0

91.0

89.0

88.0

84.0

78.0

70.0

64.0

89.0

Note: Sound power levels tolerance for each octave band: --- 0/+2 dB

The unit sound level in the version ”B” and in the version ”L” is lowered by 3 dB(A) in standard operating conditions with water 12/7 ûC at the evaporator and outdoor air at 30ûC by suitable measures, such as: D better sound insulation of the compressor compartment; D automatic fan speed reduction with standard adjustment with phase cutoff (TRIAC) for the ”B” versions; D automatic fan speed reduction with inverter adjustment for the ”L” versions.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

9 -- 4

10

Electrical Data

Electrical Data

Tab. 10a --- Electrical data --- CA7 081 ---140 Models CA7 Power supply

081

087

093

100

V/Ph/Hz

OA (1) FLA LRA

107

115

122

131

140

400 V / 3 Ph / 50 Hz

A A A

536 716 851

586 756 972

639 807 1023

691 857 1087

728 918 1148

781 948 1303

814 990 1345

846 1012 1367

902 1012 1367

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

301 480 330

328 530 330/370

351 572 370

384 624 370/420

399 650 420

434 703 420/450

447 724 450

453 734 450/450

490 790 450

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current

n. kW A A

10

12

14

16

20

3 5.6 6.3

Std. head pressure pump model (Opt.)

---

80--- 160/147--- 127

80--- 160/153

80--- 160 /163

Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

kW A

11 21.4

15 28

18.5 34

High head pressure pump model (Opt.)

---

80--- 160/153

80--- 160/163

80--- 160 /169

High head pressure pump --- Motor power High head pressure pump --- Max. current

kW A

15 28

18.5 34

22 42

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R407C refrigerant

Tab. 10b --- Electrical data --- CB7 081 ---140 Models CB7

081

087

093

100

A A A

546 710 845

596 750 966

648 800 1016

705 850 1080

742 910 1140

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

310 496 330

339 546 330/370

362 588 370

397 645 370/420

414 672 420

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current

n. kW A A

Power supply

V/Ph/Hz

OA (1) FLA LRA

107

115

122

131

140

796 940 1295

826 980 1335

854 1000 1355

914 1000 1355

449 726 420/450

461 746 450

466 754 450/450

505 814 450

400 V / 3 Ph / 50 Hz

10

12

14

16

20

2.3 5 5.3

Std. head pressure pump model (Opt.)

---

80--- 160/147--- 127

80--- 160/153

80--- 160 /163

Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

kW A

11 21.4

15 28

18.5 34

High head pressure pump model (Opt.)

---

80--- 160/153

80--- 160/163

80--- 160 /169

High head pressure pump --- Motor power High head pressure pump --- Max. current

kW A

15 28

18.5 34

22 42

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R407C refrigerant

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

10 -- 1

Electrical Data Tab. 10c --- Electrical data --- CL7 080 ---139 Models CL7 Power supply

080

086

092

099

V/Ph/Hz

OA (1) FLA LRA

106

114

121

130

139

400 V / 3 Ph / 50 Hz

A A A

526 710 845

576 750 966

614 798 1014

662 848 1078

720 898 1128

774 928 1283

788 972 1327

847 972 1327

910 972 1327

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

298 476 330

325 526 330/370

340 556 370

371 604 370/420

408 662 420

442 716 420/450

441 716 450

480 775 450/450

521 838 450

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current EC Fans--- Power input (Opt.) EC Fans--- Nominal current (Opt.)

n. kW A A kW A

14

16

20 1.7 3.6 4.1 1.3 2.3

Std. head pressure pump model (Opt.)

---

80--- 160/147--- 127

80--- 160/153

80--- 160 /163

Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

kW A

11 21.4

15 28

18.5 34

High head pressure pump model (Opt.)

---

80--- 160/153

80--- 160/163

80--- 160 /169

High head pressure pump --- Motor power High head pressure pump --- Max. current

kW A

15 28

18.5 34

22 42

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R407C refrigerant Note: The electrical data shown for the EC fans are referred to operating conditions (rpm/air delivery) perfectly equivalent to standard fans; such operating conditions are determined by the factory --- set microprocessor control signal.

Tab. 10d --- Electrical data --- CQ7 080 ---121 Models CQ7 Power supply

080

086

092

V/Ph/Hz

OA (1) FLA LRA

099

106

114

121

400 V / 3 Ph / 50 Hz

A A A

545 689 824

596 729 945

628 774 990

687 824 1054

760 874 1104

816 904 1259

812 942 1297

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

323 516 330

352 567 330/370

366 594 370

403 653 370/420

448 726 420

485 782 420/450

477 770 450

Fans number Fans--- Power input Fans--- Mominal current Fans--- Max. current EC Fans--- Power input (Opt.) EC Fans--- Nominal current (Opt.)

n. kW A A kW A

Std. head pressure pump model (Opt.) Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

--kW A

80--- 160/147--- 127 11 21.4

80--- 160/153 15 28

High head pressure pump model (Opt.) High head pressure pump --- Motor power High head pressure pump --- Max. current

--kW A

80--- 160/153 15 28

80--- 160/163 18.5 34

14

16

20

1.1 2.1 2.3 0.8 1.5

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R407C refrigerant Note: The electrical data shown for the EC fans are referred to operating conditions (rpm/air delivery) perfectly equivalent to standard fans; such operating conditions are determined by the factory --- set microprocessor control signal.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

10 -- 2

Electrical Data Tab. 10e --- Electrical data --- CA4 069 ---107 Models CA4 Power supply OA (1) FLA LRA

069

075

081

V/Ph/Hz

087

093

100

107

400 V / 3 Ph / 50 Hz

A A A

380 616 772

408 646 801

440 676 831

476 686 952

515 707 973

544 747 1037

566 798 1088

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

195 324 280

215 352 280/310

238 384 310

256 420 310/320

269 448 320

288 477 320/360

295 488 360

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current

n. kW A A

Std. head pressure pump model (Opt.) Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

--kW A

80--- 160/147--- 127 11 21.4

High head pressure pump model (Opt.) High head pressure pump --- Motor power High head pressure pump --- Max. current

--kW A

80--- 160/153 15 28

10

12

14

3 5.6 6.3

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R134a refrigerant

Tab. 10f --- Electrical data --- CB4 069 ---107 Models CB4

069

075

081

A A A

380 610 766

411 640 795

446 670 825

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

200 330 280

221 361 280/310

245 396 310

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current

n. kW A A

Std. head pressure pump model (Opt.) Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

--kW A

80--- 160/147--- 127 11 21.4

High head pressure pump model (Opt.) High head pressure pump --- Motor power High head pressure pump --- Max. current

--kW A

80--- 160/153 15 28

Power supply OA (1) FLA LRA

V/Ph/Hz

087

093

100

107

482 680 946

520 700 966

551 740 1030

572 790 1080

264 432 310/320

277 460 320

297 491 320/360

304 502 360

400 V / 3 Ph / 50 Hz

10

12

14

2.3 5 5.3

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R134a refrigerant

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

10 -- 3

Electrical Data Tab. 10g --- Electrical data --- CL4 068 ---106 Models CL4 Power supply

068

074

080

V/Ph/Hz

OA (1) FLA LRA

086

092

099

106

400 V / 3 Ph / 50 Hz

A A A

375 603 759

406 633 788

432 670 825

466 680 946

494 698 964

521 738 1028

552 778 1068

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

201 332 280

223 363 280/310

236 382 310

254 416 310/320

261 436 320

278 463 320/360

298 494 360

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current EC Fans--- Power input (Opt.) EC Fans--- Nominal current (Opt.)

n. kW A A kW A

Std. head pressure pump model (Opt.) Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

--kW A

80--- 160/147--- 127 11 21.4

High head pressure pump model (Opt.) High head pressure pump --- Motor power High head pressure pump --- Max. current

--kW A

80--- 160/153 15 28

12

14

16 1.7 3.6 4.1 1.3 2.3

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R134a refrigerant Note: The electrical data shown for the EC fans are referred to operating conditions (rpm/air delivery) perfectly equivalent to standard fans; such operating conditions are determined by the factory --- set microprocessor control signal.

Tab. 10h --- Electrical data --- CQ4 068 ---106 Models CQ4 Power supply OA (1) FLA LRA

068

074

080

V/Ph/Hz

086

092

099

106

400 V / 3 Ph / 50 Hz

A A A

377 585 741

414 615 770

437 649 804

473 659 925

496 674 940

527 714 1004

564 754 1044

Compressors--- Power input (1) Compressors--- Nominal current (1) Compressors--- Max. current

kW A A

214 352 280

240 389 280/310

253 408 310

272 444 310/320

277 462 320

298 493 320/360

322 530 360

Fans number Fans--- Power input Fans--- Nominal current Fans--- Max. current EC Fans--- Power input (Opt.) EC Fans--- Nominal current (Opt.)

n. kW A A kW A

Std. head pressure pump model (Opt.) Std. head pressure pump --- Motor power Std. head pressure pump --- Max. current

--kW A

80--- 160/147--- 127 11 21.4

High head pressure pump model (Opt.) High head pressure pump --- Motor power High head pressure pump --- Max. current

--kW A

80--- 160/153 15 28

12

14

16 1.1 2.1 2.3 0.8 1.5

(1) --- Outdoor temperature 35ûC; water inlet/outlet temperature 12/7ûC; R134a refrigerant Note: The electrical data shown for the EC fans are referred to operating conditions (rpm/air delivery) perfectly equivalent to standard fans; such operating conditions are determined by the factory --- set microprocessor control signal.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

10 -- 4

11

Application Consideration

Application Consideration

Fig. 11a --- positions and loads

W1

1992

1801,5

1992

W2

W3

”C”

1801,5

”D” ”E”

996

W4

W5

W7

W6

996

1992

1801,5

1992

1801,5

842,5

Ø 20

103

W13

W8

W9

W10

W11

W12

W21

W22

W23

W24

W25 W26

W14 W15

W16

W17

W18

W19

W20

2140

FOOT PRINT

60

240 830 120 830 240

842,5

1801,5

1024,5

2260

”C”

1801,5 103

”B”

60

”B”

1024,5

”A”

Tab. 11a --- Dimensions Models

Size

CA7 / CB7

081---087---093---100

CA4 / CB4

069---075---081---087---093---100

CL4 / CQ4

068---074

CA7 / CB7

107---115

CL7 / CQ7

080---086

CA4 / CB4

107

CL4 / CQ4

080---086

CA7 / CB7

122

CL7 / CQ7

092---099---106---114

CL4 / CQ4

092---099---106

CA7 / CB7

131---140

CL7 / CQ7

121---130---139

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Fans nr. nr

Dimensions (mm) “A”

“B”

“C”

“D”

“E”

10 --- 12

8482

2271

---

---

---

14

9478

---

1992

---

---

16

11470

---

---

1992

---

20

13462

---

---

---

1992

11 -- 1

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

568

569

572

580

585

589

635

567

568

607

615

586

590

596

CA/CB4 081

CA/CB4 087

CA/CB4 093

CA/CB4 100

CA/CB4 107

CL/CQ4 068

CL/CQ4 074

CL/CQ4 080

CL/CQ4 086

CL/CQ4 092

CL/CQ4 099

CL/CQ4 106

528

CL/CQ7 139

CA/CB4 075

528

CL/CQ7 130

CA/CB4 069

526

CL/CQ7 121

584

CL/CQ7 092

600

609

CL/CQ7 086

CL/CQ7 114

606

CL/CQ7 080

586

544

CA/CB7 140

594

544

CA/CB7 131

CL/CQ7 106

612

CA/CB7 122

CL/CQ7 099

634

586

CA/CB7 100

641

583

CA/CB7 093

CA/CB7 115

574

CA/CB7 087

CA/CB7 107

571

W1

CA/CB7 081

Models

596

590

586

615

607

568

567

635

589

585

580

572

569

568

528

528

526

600

594

586

584

609

606

544

544

612

641

634

586

583

574

571

W2

---

---

---

---

---

568

567

---

589

585

580

572

569

568

---

---

---

---

---

---

---

---

---

---

---

---

---

---

586

583

574

571

W3

596

590

586

615

607

---

---

635

---

---

---

---

---

---

528

528

526

600

594

586

584

609

606

544

544

612

641

634

---

---

---

---

W4

596

590

586

---

---

---

---

---

---

---

---

---

---

---

528

528

526

600

594

586

584

---

---

544

544

612

---

---

---

---

---

---

W5

---

---

---

---

---

---

---

---

---

---

---

---

---

---

528

528

526

---

---

---

---

---

---

544

544

---

---

---

---

---

---

---

W6

---

---

---

607

607

568

567

635

588

585

573

572

569

568

---

---

---

---

---

---

---

608

606

---

---

---

633

634

586

583

574

571

W7

---

---

---

---

---

---

---

---

---

---

---

---

---

---

530

527

528

---

---

---

---

---

---

546

543

---

---

---

---

---

---

---

W8

Tab. 11b --- Weight distribution --- unit without pumps

Application Consideration

598

588

588

---

---

---

---

---

---

---

---

---

---

---

530

527

528

593

597

587

586

---

---

546

543

615

---

---

---

---

---

---

W9

598

588

588

607

610

---

---

639

---

---

---

---

---

---

530

527

528

593

597

587

586

608

609

546

543

615

633

637

---

---

---

---

W10

---

---

---

---

---

570

570

---

588

588

573

575

571

571

---

---

---

---

---

---

---

---

---

---

---

---

---

---

588

587

574

575

W11

598

588

588

607

610

570

570

639

588

588

573

575

571

571

530

527

528

593

597

587

586

608

609

546

543

615

633

637

588

587

574

575

W12

598

588

588

607

610

570

570

639

588

588

573

575

571

571

530

527

528

593

597

587

586

608

609

546

543

615

633

637

588

587

574

575

W13

766

745

740

787

772

730

728

830

766

761

752

737

730

729

663

664

661

763

750

726

725

769

765

679

680

782

827

812

746

744

734

730

W14

766

745

740

787

772

730

728

830

766

761

752

737

730

729

663

664

661

763

750

726

725

769

765

679

680

782

827

812

746

744

734

730

W15

Weight distribution (kg)

---

---

---

---

---

730

728

---

766

761

752

737

730

729

---

---

---

---

---

---

---

---

---

---

---

---

---

---

746

744

734

730

W16

766

745

740

787

772

---

---

830

---

---

---

---

---

---

663

664

661

763

750

726

725

769

765

679

680

782

827

812

---

---

---

---

W17

766

745

740

---

---

---

---

---

---

---

---

---

---

---

663

664

661

763

750

726

725

---

---

679

680

782

---

---

---

---

---

---

W18

---

---

---

---

---

---

---

---

---

---

---

---

---

---

663

664

661

---

---

---

---

---

---

679

680

---

---

---

---

---

---

---

W19

---

---

---

778

772

730

728

830

765

761

744

737

730

729

---

---

---

---

---

---

---

768

765

---

---

---

817

812

746

744

734

730

W20

---

---

---

---

---

---

---

---

---

---

---

---

---

---

666

663

664

---

---

---

---

---

---

682

679

---

---

---

---

---

---

---

W21

770

742

744

---

---

---

---

---

---

---

---

---

---

---

666

663

664

754

753

728

728

---

---

682

679

785

---

---

---

---

---

---

W22

770

742

744

778

776

---

---

835

---

---

---

---

---

---

666

663

664

754

753

728

728

768

769

682

679

785

817

816

---

---

---

---

W23

---

---

---

---

---

732

732

---

765

766

744

742

733

733

---

---

---

---

---

---

---

---

---

---

---

---

---

---

748

749

734

735

W24

770

742

744

778

776

732

732

835

765

766

744

742

733

733

666

663

664

754

753

728

728

768

769

682

679

785

817

816

748

749

734

735

W25

770

742

744

778

776

732

732

835

765

766

744

742

733

733

666

663

664

754

753

728

728

768

769

682

679

785

817

816

748

749

734

735

W26

10920

10660

10632

9746

9674

9098

9086

10282

9477

9446

9264

9187

9108

9100

11935

11910

11895

10840

10776

10508

10492

9638

9618

12255

12230

11176

10204

10143

9336

9316

9156

9134

Tot Tot.

Application Consideration

11 -- 2

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

652

658

CL/CQ4 099

CL/CQ4 106

670

CL/CQ4 080

679

632

CL/CQ4 074

648

631

CL/CQ4 068

CL/CQ4 092

706

CA/CB4 107

CL/CQ4 086

655

660

CA/CB4 100

CA/CB4 087

CA/CB4 093

636

644

CA/CB4 081

633

CL/CQ7 106

CA/CB4 075

656

CL/CQ7 099

632

648

CL/CQ7 092

582

646

CL/CQ7 086

CA/CB4 069

673

CL/CQ7 080

CL/CQ7 139

670

CA/CB7 140

579

598

CA/CB7 131

CL/CQ7 130

595

CA/CB7 122

662

675

CA/CB7 115

576

711

CA/CB7 107

CL/CQ7 121

704

CA/CB7 100

CL/CQ7 114

654

656

CA/CB7 093

635

638

CA/CB7 087

W1

CA/CB7 081

Models

658

652

648

679

670

632

631

706

660

655

644

636

633

632

582

579

576

662

656

648

646

673

670

598

595

675

711

704

656

654

638

635

W2

---

---

---

---

---

632

631

---

660

655

644

636

633

632

---

---

---

---

---

---

---

---

---

---

---

---

---

---

656

654

638

635

W3

658

652

648

679

670

---

---

706

---

---

---

---

---

---

582

579

576

662

656

648

646

673

670

598

595

675

711

704

---

---

---

---

W4

658

652

648

---

---

---

---

---

---

---

---

---

---

---

582

579

576

662

656

648

646

---

---

598

595

675

---

---

---

---

---

---

W5

---

---

---

---

---

---

---

---

---

---

---

---

---

---

582

579

576

---

---

---

---

---

---

598

595

---

---

---

---

---

---

---

W6

---

---

---

671

670

632

631

706

659

655

637

636

633

632

---

---

---

---

---

---

---

672

670

---

---

---

704

704

656

654

638

635

W7

Tab. 11c --- Weight distribution --- unit with pumps

---

---

---

---

---

---

---

---

---

---

---

---

---

---

584

578

578

---

---

---

---

---

---

600

594

---

---

---

---

---

---

---

W8

660

650

650

---

---

---

---

---

---

---

---

---

---

---

584

578

578

655

659

649

648

---

---

600

594

678

---

---

---

---

---

---

W9

660

650

650

671

674

---

---

709

---

---

---

---

---

---

584

578

578

655

659

649

648

672

673

600

594

678

704

708

---

---

---

---

W10

---

---

---

---

---

634

634

---

659

659

637

639

635

635

---

---

---

---

---

---

---

---

---

---

---

---

---

---

658

657

638

639

W11

660

650

650

671

674

634

634

709

659

659

637

639

635

635

584

578

578

655

659

649

648

672

673

600

594

678

704

708

658

657

638

639

W12

660

650

650

671

674

634

634

709

659

659

637

639

635

635

584

578

578

655

659

649

648

672

673

600

594

678

704

708

658

657

638

639

W13

802

780

776

823

808

766

764

871

807

801

786

773

767

765

695

693

690

798

785

762

760

805

801

711

709

818

867

852

786

784

770

767

W14

802

780

776

823

808

766

764

871

807

801

786

773

767

765

695

693

690

798

785

762

760

805

801

711

709

818

867

852

786

784

770

767

W15

Weight distribution (kg)

---

---

---

---

---

766

764

---

807

801

788

773

767

765

---

---

---

---

---

---

---

---

---

---

---

---

---

---

786

784

770

767

W16

802

780

776

823

808

---

---

871

---

---

---

---

---

---

695

693

690

798

785

762

760

805

801

711

709

818

867

852

---

---

---

---

W17

802

780

776

---

---

---

---

---

---

---

---

---

---

---

695

693

690

798

785

762

760

---

---

711

709

818

---

---

---

---

---

---

W18

---

---

---

---

---

---

---

---

---

---

---

---

---

---

695

693

690

---

---

---

---

---

---

711

709

---

---

---

---

---

---

---

W19

---

---

---

814

808

766

764

871

805

801

780

773

767

765

---

---

---

---

---

---

---

804

801

---

---

---

857

852

786

784

770

767

W20

---

---

---

---

---

---

---

---

---

---

---

---

---

---

697

692

693

---

---

---

---

---

---

713

708

---

---

---

---

---

---

---

W21

805

777

779

---

---

---

---

---

---

---

---

---

---

---

697

692

693

789

788

763

763

---

---

713

708

821

---

---

---

---

---

---

W22

805

777

779

814

812

---

---

875

---

---

---

---

---

---

697

692

693

789

788

763

763

804

805

713

708

821

857

856

---

---

---

---

W23

---

---

---

---

---

768

769

---

805

806

780

778

769

769

---

---

---

---

---

---

---

---

---

---

---

---

---

---

788

789

770

771

W24

805

777

779

814

812

768

769

875

805

806

780

778

769

769

697

692

693

789

788

763

763

804

805

713

708

821

857

856

788

789

770

771

W25

805

777

779

814

812

768

769

875

805

806

780

778

769

769

697

692

693

789

788

763

763

804

805

713

708

821

857

856

788

789

770

771

W26

11700

11436

11412

10446

10370

9798

9789

11060

10257

10219

9964

9887

9812

9800

12790

12710

12685

11616

11552

11288

11268

10338

10318

13110

13030

11968

10978

10916

10106

10090

9856

9838

Tot Tot.

Application Consideration

11 -- 3

Application Consideration Fig. 11b --- Rubber anti ---vibration

Application Consideration

Rubber dimensions

Rubber installation

A

UNIT BASE

G

S

B

FIXING SCREW

FIXING BOLT (NOT SUPPLIED)

ACCESS HOLE FOR FIXING

CF P

CEMENT BASE

F

Tab. 11d --- Single code

L

A

B

P

F

CF

G

L

S

Code

(mm)

(mm)

(mm)

(mm)

(mm)

(mm)

(mm)

(mm)

270326

108

50

M16

16.5

160

83

190

5

Tab. 11e --- Rubber Unit

Configuration

Fans N.

CA7 / CB7 081 CA7 / CB7 087

10

CA7 / CB7 093 CA7 / CB7 100

12

CA7 / CB7 107 CA7 / CB7 115

14

CA7 / CB7 122

kit code

Single code

Kit pieces

489030

14

16

489031

16

CA7 / CB7 131 CA7 / CB7 140

20

485772

20

CL7 / CQ7 080 CL7 / CQ7 086

14

489030

14

CL7 / CQ7 092 CL7 / CQ7 099 CL7 / CQ7 106 CL7 / CQ7 114

16

489031

16

20

485772

CL7 / CQ7 121 CL7 / CQ7 130 CL7 / CQ7 139

With or without pumps

CA4 / CB4 069 CA4 / CB4 075 CA4 / CB4 081 CA4 / CB4 087

10

CA4 / CB4 093 CA4 / CB4 100

12

CA4 / CB4 107

14

CL4 / CQ4 068 CL4 / CQ4 074

12

CL4 / CQ4 080 CL4 / CQ4 086

14

CL4 / CQ4 092 CL4 / CQ4 099 CL4 / CQ4 106

16

270326

20

489030

14

489031

16

Each kit is complete with stainless steel fixing screws and plain washers for unit assembly.

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

11 -- 4

Application Consideration Fig. 11c --- Lifting instructions N.B: Place the lifting tubes in the holes in the base indicated by the word ’LIFT HERE’. Lock the ends of the tubes in position with the locking pins and split pins as shown above. The capacity of the lifting gear must be adequate to lift the load in question. Check the weight of the Liebert Hiross HPC ---L units, the capacity of the lifting gear and ropes and the condition and suitability of the aforementioned equipment. Lift the unit with a speed suitable for the load to be moved, so as not to damage the Liebert Hiross HPC ---L structure.

A G

A

B F = G = B D = E = PART. ”A”

C PROTECTION PLANK

F

RIGID STRUTS (POSSIBILY STEEL)

C

BELT OR CHORDS

BLOCKING PEG (NOT SUPPLIED) SPLIT PIN (NOT SUPPLIED)

PART. ”A”

LIFTING TUBE (NOT SUPPLIED)

PART. ”A”

Tab. 11f --- Lifting Fans nr.

(mm)

(mm)

(mm)

“C”

“D” (mm) (Base)

“E” (mm) (Base / Roof)

(mm)

(mm)

10 / 12

2750

' 4500

' 10000

8482

2260 / 2308

473

5476

14

2750

' 4500

' 10000

9478

2260 / 2308

473

5974

CA7 122 CB7 122 CL7/CQ7 092---099---106---114 CL4/CQ4 092---099---106

16

2750

' 4500

' 10000

11470

2260 / 2308

473

7100

CA7 131---140 CB7 131---140 CL7/CQ7 121---130---139

20

2750

' 4500

' 10000

13462

2260 / 2308

473

8056

Models

“A“

“B“

“F”

“G”

CA7 081---087---093---100 CA4 069---075---081---087---093---100 CB7 081---087---093---100 CB4 069---075---081---087---093---100 CL4/CQ4 068---074 CA7 107---115 CA4 107 CB7 107---115 CB4 107 CL7/CQ7 080---086 CL4/CQ4 080---086

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

11 -- 5

Application Consideration Fig. 11d --- Lifting Instructions

LIFTING WITH CHORDS

LIFTING WITH BELT

”Yg”

”Xg” X base

2260

N.B: The lifting point has to be on the vertical baricentric axis, which is individualized by symbols indicated on the base.

Tab. 11g --- Shipping weight and unit baricentre position (with and without pumps) Models CA7 / CB7 081 CA7 / CB7 087 CA7 / CB7 093 CA7 / CB7 100 CA7 / CB7 107 CA7 / CB7 115 CA7 / CB7 122 CA7 / CB7 131 CA7 / CB7 140 CL7 / CQ7 080 CL7 / CQ7 086 CL7 / CQ7 092 CL7 / CQ7 099 CL7 / CQ7 106 CL7 / CQ7 114 CL7 / CQ7 121 CL7 / CQ7 130 CL7 / CQ7 139 CA4 / CB4 069 CA4 / CB4 075 CA4 / CB4 081 CA4 / CB4 087 CA4 / CB4 093 CA4 / CB4 100 CA4 / CB4 107 CL4 / CQ4 068 CL4 / CQ4 074 CL4 / CQ4 080 CL4 / CQ4 086 CL4 / CQ4 092 CL4 / CQ4 099 CL4 / CQ4 106

X base (mm)

“Xg“

8482 8482 8482 8482 9478 9478 11470 13462 13462 9478 9478 11470 11470 11470 11470 13462 13462 13462 8482 8482 8482 8482 8482 8482 9478 8482 8482 9478 9478 11470 11470 11470

4250 4241 4250 4246 4747 4721 5743 6727 6738 4747 4738 5743 5738 5743 5712 6738 6727 6738 4250 4246 4250 4224 4250 4238 4747 4250 4246 4747 4720 5743 5728 5743

(mm)

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Unit without pumps Shipping weight “Yg“ (mm)

1024 1024 1023 1024 1023 1019 1020 1030 1030 1029 1030 1035 1037 1030 1026 1027 1027 1028 1020 1020 1015 1011 1009 1010 1009 1020 1020 1021 1018 1023 1024 1016

(kg)

8690 8712 8902 8922 9637 9698 10730 11784 11809 9174 9194 10078 10094 10270 10334 11449 11464 11489 8686 8694 8815 8892 9074 9105 9836 8672 8684 9302 9374 10260 10288 10474

“Xg“

(mm)

4249 4241 4249 4245 4747 4722 5742 6728 6738 4747 4738 5742 5737 5742 5714 6738 6728 6738 4249 4245 4249 4226 4249 4238 4747 4249 4245 4747 4721 5742 5728 5742

Unit with pumps Shipping weight “Yg“ (mm)

1049 1050 1049 1050 1048 1044 1043 1050 1052 1053 1053 1058 1059 1053 1049 1048 1048 1050 1046 1046 1041 1037 1036 1036 1034 1046 1046 1045 1042 1046 1047 1040

(kg)

9291 9311 9546 9563 10283 10343 11394 12452 12530 9775 9795 10724 10742 10918 10978 12112 12132 12210 9287 9297 9416 9492 9721 9751 10483 9276 9286 9900 9977 10905 10935 11120

11 -- 6

Application Consideration Fig. 11e --- Service areas (top view)

1500

1500

AIR

AIR

1500

1500

Ordinary maintenance area

Extraordinary maintenance area

Notes: Minimum distance between 2 units from condensing coil side = 3 m Do not obstruct the air exiting the fans for a minimum distance of 2.5 m

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

11 -- 7

Front view (without pumps)

Electrical and subunit card+display (rear removable )

Left lateral view (without pumps)

8590 8486

2308

52

M

M

1821

X

2420

70 Inlet

500

X

2420

421

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

262

88

P Front view (without pumps with optional inlet kit)

350

Outlet

Y

4241

2260

P

Electrical and master card+display (rear removable )

V

M

288

1821

8482

446

M

P

Y

Right lateral view (without pumps with optional inlet kit) P

Part. G

326 88

P P

446

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

446

2260

446

70 Inlet Outlet

M

M

140

326 140

M

B

M

2311

A

52

Part. G Unit connection system

4241 Not present on 10 fans unit

H

”N” Y Top view (without pumps)

X Victaulic coupling

“N” view

X Unit connection pipe

Y 70 M 326 140

M 326 140

Rear view from “H” (without pumps)

Overall base frame unit (2260)

12 -- 1

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

P

88 2616,5

Z

Z

W

W

3249

P

88 2616,5

Air flow N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

M

Removable

P

Optional

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Right lateral view (without pumps)

12

Fig. 12a --- Liebert Hiross HPC ---L CA/CB/CL/CQ without pumps (10 ---12 fans)

Dimensional Data

Partial heat recovery water connection (Opt. not available with pumps)

Chiller water connection Model CA7 081 ---087 CA4 069 ---075 ---081 ---087 CA7 093 ---100 CA4 093 ---100 CB7 081 ---087 CB4 069 ---075 ---081 ---087 CB7 093 ---100 CB4 093 ---100 CL4 / CQ4 068 ---074 (*)

In EC fans version added 30 mm

“A” (mm)

252

“B” (mm)

Fans N.

“X” (Standard)

“V” (Optional)

“Y”

10

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

12

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

10

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

2563

260

2571

260 (*)

2571 (*)

12

“W”

“Z”

2 x Inlet 21/2” Gas Male

2 x Outlet 21/2” Gas Male

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12a --- HPC ---L CA/CB/CL/CQ without pumps (10 ---12 fans)

12 -- 2

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Front view (with pumps)

Right lateral view (with pumps)

Left lateral view (with pumps)

8590 8486

2308

52

Electrical and subunit card+display (rear removable )

M

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

M

M

M

326 140

M Part. G

326 140

B

M

2311

A

52

88

P

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

88

8482 Not present on 10 fans unit

H

2260

Electrical and master card+display (rear removable )

Top view (with pumps)

Part. G Unit connection system

Lateral view from “L” (with pumps)

M 140

M

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

88

3245

X

Lateral view from “L” (with pumps and optional inlet kit) M

996

996 Y V

M

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

”N”

L Y

X Victaulic coupling

88 “N” view

3245

X

X

Unit connection pipe

Y

Rear view from “H” (with pumps and optional inlet kit)

70

Overall base frame unit (2260)

350

P

340

2260

446

70 Inlet Outlet

340

326

140

M

326

M

Rear view from “H” (with pumps)

L

12 -- 3

70 Inlet

500

Outlet

2260

4241

446

Air flow Y

4241

M

Removable

P

Optional

Dimensional Data

Fig. 12b --- Liebert Hiross HPC ---L CA/CB/CL/CQ with pumps (10 ---12 fans)

Dimensional Data

Chiller water connection Model CA7 081 ---087 CA4 069 ---075 ---081 ---087 CA7 093 ---100 CA4 093 ---100 CB7 081 ---087 CB4 069 ---075 ---081 ---087 CB7 093 ---100 CB4 093 ---100 CL4 / CQ4 068 ---074 (*)

In EC fans version added 30 mm

“A” (mm)

252

“B” (mm)

Fans N.

“X” (Standard)

“V” (Optional)

“Y”

10

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

12

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

10

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

2563

260

2571

260 (*)

2571 (*)

12

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12b --- HPC ---L CA/CB/CL/CQ with pumps (10 ---12 fans)

12 -- 4

Electrical and subunit card+display (rear removable )

Left lateral view (without pumps)

9586 52

9482

2308

52

A

C

P

C

X

Right lateral view (without pumps with optional inlet kit)

Y 9478

500

Y

4739

2260

421

P

P Front view (without pumps with optional inlet kit)

350

Outlet

288

Electrical and master card+display (rear removable )

446

M

70 Inlet

D

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

X

V

M P

P

88

M

Part. G

262

140 326 D

P

446

88

446

2260

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

446

70 Inlet Outlet

M

M

M 326 140

M

B

M

2311

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Front view (without pumps)

Right lateral view (without pumps)

Part. G Unit connection system

4739

H

Top view (without pumps)

”N” Y

X Victaulic coupling

“N” view

X Unit connection pipe

Y M

12 -- 5

Overall base frame unit (2260)

140 88

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

70

326

326 140

Rear view from “H” (without pumps)

M

Z W 2379,5

P

P 4719

Z

W 2379,5

Air flow

88 N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

M

Removable

P

Optional

Dimensional Data

Fig. 12c --- Liebert Hiross HPC ---L CA/CB/CL/CQ without pumps (14 fans)

Dimensional Data

Partial heat recovery water connection (Opt. not available with pumps)

Chiller water connection “A” (mm)

“B” (mm)

CA7 107 ---115 CA4 107

252

2563

CB7 107 ---115 CB4 107

260

2571

260 (*)

2571 (*)

Model

CL7 / CQ7 080 ---086 CL4 / CQ4 080 ---086 (*)

In EC fans version added 30 mm

“C” (mm)

“D” (mm)

“X” (Standard)

“V” (Optional)

“Y”

2920

1819

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2420

2319

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

“W”

“Z”

2 x Inlet 21/2” Gas Male

2 x Outlet 21/2” Gas Male

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12c --- HPC ---L CA/CB/CL/CQ without pumps (14 fans)

12 -- 6

Left lateral view (with pumps)

9586 9482

52

2308

Electrical and subunit card+display (rear removable )

M

M

M

140

M

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

326

M Part. G

326 140

M

B

A

52

2311

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Front view (with pumps)

Right lateral view (with pumps)

88

P

88

9478

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

H

2260

Electrical and master card+display (rear removable )

Top view (with pumps)

Lateral view from “L” (with pumps)

326 3743

996

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

X

Lateral view from “L” (with pumps and optional inlet kit) M

340

88

2260

446

340

70 Inlet Outlet

326 140

M

140

L

M

996 Y

V

M

”N”

88

Y

3743 N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

X

X Victaulic coupling

“N” view

X Unit connection pipe

Y

Rear view from “H” (with pumps and optional inlet kit)

70

Overall base frame unit (2260)

350

P

Part. G Unit connection system

Rear view from “H” (with pumps)

12 -- 7

70 Inlet

500

Outlet

2260

4739

446

L

Y

4739

Air flow M

Removable

P

Optional

Dimensional Data

Fig. 12d --- Liebert Hiross HPC ---L CA/CB/CL/CQ with pumps (14 fans)

Dimensional Data

Chiller water connection “A” (mm)

“B” (mm)

CA7 107 ---115 CA4 107

252

2563

CB7 107 ---115 CB4 107

260

2571

260 (*)

2571 (*)

Model

CL7 / CQ7 080 ---086 CL4 / CQ4 080 ---086 (*)

In EC fans version added 30 mm

“X” (Standard)

“V” (Optional)

“Y”

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2 x Inlet DN125--- 5” --- 139.7mm

1 x Inlet DN150--- 6” --- 168.3mm

1 x Outlet DN150--- 6” --- 168.3mm

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12d --- HPC ---L CA/CB/CL/CQ with pumps (14 fans)

12 -- 8

Left lateral view (without pumps)

11578

Electrical and subunit card+display (rear removable )

52

11474

2308

52

A

M

M

P

D

P C

X

P

C 11470

Right lateral view (without pumps with optional inlet kit)

Y

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

Part. G

421

88

D

288

P

Electrical and master card+display (rear removable )

X

V

M

M

326 140

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

446

88

2260

446

70 Inlet Outlet

446

326 140

B

M

262

M M

2311

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Front view (without pumps)

Right lateral view (without pumps)

P

M

70 Inlet

500

350

M

Outlet

Y

5735 2260

446

P

Front view (without pumps with optional inlet kit)

5735

Part. G Unit connection system

H

Top view (without pumps)

”N” Y

X Victaulic coupling

“N” view

X

Unit connection pipe

Y M

88

12 -- 9

2379,5

Z W

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

P

6711

P

Z W

70

Overall base frame unit (2260)

326 140

326 140

Rear view from “H” (without pumps)

M

Air flow

88 2379,5

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

M

Removable

P

Optional

Dimensional Data

Fig. 12e --- Liebert Hiross HPC ---L CA/CB/CL/CQ without pumps (16 fans)

Dimensional Data

Partial heat recovery water connection (Opt. not available with pumps)

Chiller water connection “A” (mm)

“B” (mm)

CA7 122

252

2563

CB7 122

260

2571

Model

CL7 / CQ7 092 ---099 CL4 / CQ4 092 ---099 CL7 / CQ7 106 ---114 CL4 / CQ4 106 (*)

“C” (mm)

“D” (mm)

2920

2815

2420 260 (*)

In EC fans version added 30 mm

3315

2571 (*) 2920

2815

“X” (Standard)

“V” (Optional)

“Y”

“W”

“Z”

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2 x Inlet 21/2” Gas Male

2 x Outlet 21/2” Gas Male

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12e --- HPC ---L CA/CB/CL/CQ without pumps (16 fans)

12 -- 10

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Liebert Hiross HPC ---L CA/CB/CL/CQ with pumps (16 fans) Front view (with pumps)

Right lateral view (with pumps)

Left lateral view (with pumps)

11578 52

11474

2308

52

M

Electrical and subunit card+display (rear removable )

M

M

326 140

Part. G

M 326 140

B

M M

2311

A

M

88

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

P

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

11470

2260

88 Electrical and master card+display (rear removable )

H

Top view (with pumps)

Lateral view from “L” (with pumps)

L

M

4739

Lateral view from “L” (with pumps and optional inlet kit) P

M

340

446

88

2260

996

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

X

996 Y

”N”

88

Y

4739

Victaulic coupling

“N” view

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

X

X

X

Unit connection pipe

Y

V

70

Overall base frame unit (2260)

350

70 Inlet Outlet

340

326 140

M

Part. G Unit connection system

M

326 140

M

Rear view from “H” (with pumps)

M

L

12 -- 11

Inlet

500

Outlet

2260

5735

446

Air flow 70

Rear view from “H” (with pumps and optional inlet kit)

5735 Y

M

Removable

P

Optional

Dimensional Data

Fig. 12f ---

Dimensional Data

Chiller water connection “A” (mm)

“B” (mm)

CA7 122

252

2563

CB7 122

260

2571

Model

CL7 / CQ7 092 ---099 CL4 / CQ4 092 ---099 CL7 / CQ7 106 ---114 CL4 / CQ4 106 (*)

In EC fans version added 30 mm

260 (*)

2571 (*)

“X” (Standard)

“V” (Optional)

“Y”

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12f --- HPC ---L CA/CB/CL/CQ with pumps (16 fans)

12 -- 12

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Electrical and subunit card+display (rear removable )

Right lateral view (without pumps)

Front view (without pumps)

Left lateral view (without pumps)

13570 52

13466

2308

52

A

M

3811

P 2920

X

2920

13462

Y

V

Inlet

500

446

M

70

P

Outlet

6731

2260

H

421

326 140

Part. G

288

3811

Front view (without pumps with optional inlet kit)

Part. G Unit connection system

6731

Y

”N” Y

X Victaulic coupling

“N” view

X

Top view (without pumps)

Unit connection pipe

Y 70

Overall base frame unit (2260)

M 326 140

326 140

M

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

88

12 -- 13

2379,5

Z W

P

P 8703 Rear view from “H” (without pumps)

P

Electrical and master card+display (rear removable )

350

M

88

X

Right lateral view (without pumps with optional inlet kit)

P

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

P

M

262

P

446

2260

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

446

88

446

70 Inlet Outlet

M

M 326 140

B

M 2311

M M

Z W

88 2379,5

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

Air flow M

Removable

P

Optional

Dimensional Data

Fig. 12g --- Liebert Hiross HPC ---L CA/CB/CL/CQ without pumps (20 fans)

Dimensional Data

Partial heat recovery water connection (Opt. not available with pumps)

Chiller water connection “A” (mm)

“B” (mm)

CA7 131 ---140

252

2563

CB7 131 ---140

260

2571

260 (*)

2571 (*)

Model

CL7 / CQ7 121 ---130 ---139 (*)

In EC fans version added 30 mm

“X” (Standard)

“V” (Optional)

“Y”

“W”

“Z”

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

2 x Inlet 21/2” Gas M l Male

2 x Outlet 21/2” Gas M l Male

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12g --- HPC ---L CA/CB/CL/CQ without pumps (20 fans)

12 -- 14

Right lateral view (with pumps)

Left lateral view (with pumps)

13570 52

13466

52

2308

A

M M M

M

Electrical and subunit card+display (rear removable )

M

326

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

88

Part. G

M

140

326 140

B

M

2311

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Front view (with pumps)

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

P

88

2260

13462

Electrical and master card+display (rear removable )

H

Top view (with pumps)

Rear view from “H” (with pumps)

M M

M

Lateral view from “L” (with pumps)

N.2 circuit supplay cable inlet (N.2 prepunched 100x120)

X

996

996 Y

340

5735

446

88

2260

340

326

326 140

140

M

70 Inlet Outlet

Part. G Unit connection system

L

88

”N”

5735

Y

N.1 circuit supplay cable inlet (N.2 prepunched 100x120)

X

Victaulic coupling

“N” view

X

V

M

X

Unit connection pipe

Y M

350

P

70

Overall base frame unit (2260)

70

12 -- 15

Inlet

500

Outlet

2260

Lateral view from “L” (with pumps and optional inlet kit)

6731

446

L Air flow

6731 Y

Rear view from “H” (with pumps and optional inlet kit)

M

Removable

P

Optional

Dimensional Data

Fig. 12h --- Liebert Hiross HPC ---L CA/CB/CL/CQ with pumps (20 fans)

Dimensional Data

Chiller water connection “A” (mm)

“B” (mm)

CA7 131 ---140

252

2563

CB7 131 ---140

260

2571

Model

CL7 / CQ7 121 ---130 ---139 (*)

In EC fans version added 30 mm

260

(*)

2571

(*)

“X” (Standard)

“V” (Optional)

“Y”

2 x Inlet DN150--- 6” --- 168.3mm

1 x Inlet DN200--- 8” --- 219.1mm

1 x Outlet DN200--- 8” --- 219.1mm

Dimensional Data

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 12h --- HPC ---L CA/CB/CL/CQ with pumps (20 fans)

12 -- 16

Refrigerant Circuit

24

8

8

24

8

SEE PART “B” FOR THESE MODELS RANGE: CA7/CB7 122--- 140 / CL7/CQ7 092--- 139 / CL4/CQ4 092--- 106

8

Part. “B”

SEE PART “C” FOR THESE MODELS RANGE: CA7/CB7 122--- 140 / CL7/CQ7 092--- 139 / CL4/CQ4 092--- 106

24

8

8

8

Part. “C”

8

29

8

29

T

(OPTIONAL)

(OPTIONAL)

PARTIAL HEAT RECOVERY WATER OUTLET (OPT.)

ØZ

ØZ

19

PARTIAL HEAT RECOVERY WATER OUTLET (OPT.)

11

11 (OPTIONAL--- SEE HYDRAULIC DIAGRAM)

19 ØZ

12

PARTIAL HEAT RECOVERY WATER INLET (OPT.)

7

21

ØY

5

2

2

ØW

3

6

1 11

C1

(OPT.)

19

9

13

T

17

T

25

16

19

27

12 11

11

25

28

22

12

19 10

3

2

9

2

5

FG

1

19

11

C2

(OPT.)

NOT POSSIBLE THESE 2 OPTIONS TOGETHER

19

4 27

13

12

11

(OPTIONAL)

11

20

T

20

T ØY

11

22 CHILLED WATER OUTLET

12

19 15

10 13

15

15 26

(OPTIONAL)

13 -- 1

N.B. In units with different compressors on the two circuits, the larger capacity compressor is “C1” and the lower is “C2”. For assembly position the unit see Part “A”.

14

23 12

15

13

19

9

7

MC

4 12

28

ØW 6

18

MC 23

11

CHILLED WATER INLET 18

12

28 19

7

(OPTIONAL)

7

CHILLED WATER INLET

19

PARTIAL HEAT RECOVERY WATER INLET (OPT.) ØZ

21

19

9

FG

7

CHILLED WATER INLET (OPT.)

7

28

19

NOT POSSIBLE THESE 2 OPTIONS TOGETHER

Refrigerant Circuit

8

T

14

8

24

8

19

24

26

Part. “A”

(OPTIONAL)

EVAPORATOR

”C1”

13

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

24

”C2”

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

Description

Pos.

Compressor High pressure switch (HP) Low pressure switch (LP) Crankcase heater High pressure manometer (Opt.) Low pressure manometer (Opt.) Safety valve Condenser Flex. pipe shock absorber (Only ”Q” version) Economizer Shut--- off valve Filter dryer Shut--- off solenoid valve Sight glass Thermostatic expansion valve

16 17 18 19 20 21 22 23 24 25 26 27 28 29

Description Evaporator Antifreeze heater (Opt.) Service thermostat sensor Charge connection Antifreeze / Capacity sensor control Partial heat recovery with heater (Opt.) Three way solenoid valve Valve (Opt. --- Not available on CA4/CB4 087 ---107 / CL4/CQ4 086 ---108 models) Fans Sensor kit for electronic expansion valve (Opt.) Electronic thermostatic expansion valve (Opt.) Liquid injection Kit pressure trasducer + Temperature sensor Exteral air temperature sensor

Tab. 13b --- Unit connections HPC ---L CA7 / CB7 081---087

CA7 / CB7 093---100---107--115---122---131--140

CL7 / CQ7 080---086

CL7 / CQ7 092---099---106--114---121---130--139

CA4 / CB4 069---075---081--087

CA4 / CB4 093---100---107

CL4 / CQ4 068---074---080--086

CL4 / CQ4 092---099---106

Ø W (Victaulic coupling)

(2x) DN125 --- 5” 139.7 mm

(2x) DN150 --- 6” 168.3 mm

(2x) DN125 --- 5” 139.7 mm

(2x) DN150 --- 6” 168.3 mm

(2x) DN125 --- 5” 139.7 mm

(2x) DN150 --- 6” 168.3 mm

(2x) DN125 --- 5” 139.7 mm

(2x) DN150 --- 6” 168.3 mm

Ø Y (Victaulic coupling)

(1x) DN150 --- 6” 168.3 mm

DN200 --- 8” (1x) 219.1 mm

(1x) DN150 --- 6” 168.3 mm

DN200 --- 8” (1x) 219.1 mm

(1x) DN150 --- 6” 168.3 mm

DN200 --- 8” (1x) 219.1 mm

(1x) DN150 --- 6” 168.3 mm

DN200 --- 8” (1x) 219.1 mm

Ø Z (Gas male)

2 1 /2 “

Refrigerant Circuit

Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Tab. 13a --- Refrigerant components

13 -- 2

14

Hydraulic Circuit

Emerson Network Power unit

Hydraulic Circuit

CHILLED WATER INLET

ØW CHILLED WATER INLET (OPT.)

CHILLED WATER INLET

12

12

3

3

T

T

6

ØY

ØW

OPTIONAL (EXTERNAL TO UNIT)

6

2

1

Fig. 14a --- Unit without pumps

4

5

5

T 10

F T

(OPT.)

12

CHILLED WATER OUTLET

4

ØY

TO BE CONNECTED BY CUSTOMER 11

Tab. 14a --- Hydraulic components Pos. 1 2 3 4 5 6 ---

Description

Pos.

Evaporator Evaporator antifreeze heater (Opt.) Service thermostat sensor Antifreeze / Capacity sensor control Discharge valve Manual air valve ---

Description

----10 11

----Flow switch Kit expansion tank --- Safety valve --- Air valve --- Flex. --Valve (Optional without pumps) Service valve with cap ---

12 ---

Tab. 14b --- Unit connections HPC ---L CA7 / CB7 081---087 CA7 / CB7 093---100---107---115---122---131---140 CL7 / CQ7 080---086 CL7 / CQ7 092---099---106---114---121---130---139 CA4 / CB4 069---075---081---087 CA4 / CB4 093---100---107 CL4 / CQ4 068---074---080---086 CL4 / CQ4 092---099---106 Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Ø W (Victaulic coupling) (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150

-----------------

5” 6” 5” 6” 5” 6” 5” 6”

-----------------

139.7 mm 168.3 mm 139.7 mm 168.3 mm 139.7 mm 168.3 mm 139.7 mm 168.3 mm

Ø Y (Victaulic coupling) (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200

-----------------

6” 8” 6” 8” 6” 8” 6” 8”

-----------------

168.3 mm 219.1 mm 168.3 mm 219.1 mm 168.3 mm 219.1 mm 168.3 mm 219.1 mm

14 -- 1

Hydraulic Circuit Emerson Network Power unit

Hydraulic Circuit

TO BE CONNECTED BY CUSTOMER

11

2

6

9

CHILLED WATER INLET ØW

7 CHILLED WATER INLET (OPT.)

M1

6 9

2

8

8

ØY CHILLED WATER INLET ØW 7

M2 13 12

12

T

T

3 6

2

OPTIONAL (EXTERNAL TO UNIT)

Dp

3 6

Fig. 14b --- Unit with pumps 1

5

5 4

T

10

F

4

T

2

12

CHILLED WATER OUTLET

ØY

Tab. 14c --- Hydraulic components Pos. 1 2 3 4 5 6 7

Description

Pos.

Evaporator Evaporator antifreeze heater + Piping (Opt.) Service thermostat sensor Antifreeze / Capacity sensor control Discharge valve Manual air valve Gate valve

Description

8 9 10 11

Pump Non return valve Flow switch Kit expansion tank --- Safety valve --- Air valve --- Flex. --Valve (Optional without pumps) Service valve with cap Differential trasducer (Only with electronic pump)

12 13

Tab. 14d --- Unit connections HPC ---L CA7 / CB7 081---087 CA7 / CB7 093---100---107---115---122---131---140 CL7 / CQ7 080---086 CL7 / CQ7 092---099---106---114---121---130---139 CA4 / CB4 069---075---081---087 CA4 / CB4 093 ---100 ---107 CL4 / CQ4 068 ---074 ---080---086 CL4 / CQ4 092---099---106 Liebert Hiross HPC --- L --- PD--- 273510--- 08.02.2007

Ø W (Victaulic coupling) (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150 (2x) DN125 (2x) DN150

-----------------

5” 6” 5” 6” 5” 6” 5” 6”

-----------------

139.7 mm 168.3 mm 139.7 mm 168.3 mm 139.7 mm 168.3 mm 139.7 mm 168.3 mm

Ø Y (Victaulic coupling) (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200 (1x) DN150 (1x) DN200

-----------------

6” 8” 6” 8” 6” 8” 6” 8”

-----------------

168.3 mm 219.1 mm 168.3 mm 219.1 mm 168.3 mm 219.1 mm 168.3 mm 219.1 mm

14 -- 2

The Manufacturer hereby declares that this product conforms to the European Union directives: Le Fabricant déclare que ce produit est conforme aux directives Européennes: El Fabricante declara que este producto es conforme a las directivas Europeas: O Fabricante declara que este produto está em conformidade com as directivas Europeias: Tillverkare försäkrar härmed att denna produkt överensstämmer med Europeiska Uniones direktiv: De Fabrikant verklaart dat dit produkt conform de Europese richtlijnen is: Vaimistaja täten, että tämä tuote täyättää seuraavien EU--- direktiivien vaatimukset: Since the Liebert HIROSS Companyvakuuttaa has a policy of continuous product improvement, it reserves theerklærer right to change Produsent herved design at detteand produktet er i samsvar med EU--- direktiver: specifications without previous notice. Fabrikant erklærer herved, at dette produkt opfylder kravene i EU direktiverne:

Ο ΚατασÀευαστÞj δηλþνει üτι το παÃüν πÃοΪüν εßναι ÀατασÀευασmÝνο αýmφωνα mε τιj οδηγßεj τηj Ε.Ε.:

98/37/CE; 89/336/CEE; 73/23/CEE; 97/23/CE

Issued by T.D.Service

Der Hersteller erklärt hiermit, dass dieses Produkt den Anforderungen der Europäischen Richtlinien gerecht wird:

Printed in Italy by Liebert HIROSS S.p A.

Il Fabbricante dichiara che questo prodotto è conforme alle direttive Europee:

Emerson Network Power EMEA Liebert Hiross Headquarters Via Leonardo da Vinci, 16/18 35028 - Piove di Sacco (PD) - Italy tel. +39 049 9719111 fax +39 0495841257 www.eu.emersonnetworkpower.com [email protected] Emerson Network Power in EMEA Emerson Network Power GesmbH Austria Handelskai 102-112 - 1200 Wien tel. +43 1331890 fax +43 1331892450

Emerson Network Power S.r.l. - Italy Via Gioacchino Rossini, 6 20098 - San Giuliano Milanese - Milano tel. +39 02 982501 fax +39 02 98250273

Emerson Network Power and Liebert HIROSS - Czech Rep. Na Pricce 72/6 - 14200 Praha 4 tel. +42 02 41727954 fax +42 02 41718717 Emerson Network Power S.A. 124 Avenue Gallieni - 93170 Bagnolet tel. +33 1 43600177 fax +33 1 43607007 Emerson Network Power GmbH Liebigstrasse 9 - 85551 Kirchheim tel. +49 89 9050070 fax +49 89 90500710 Emerson Network Power Kft. Hungary 1146 Budapest Erzsébet királyné útja 1/c tel. + 36 1 273 3890 fax. +36 1 422 0621 +36 1 273 3897

Emerson Network Power B.V. Benelux Rooseindsestraat 29 5705 BP Helmond tel. +31 492 508520 fax. +31 492 508525 Emerson Network Power Sp z.o.o. Poland Ul. Konstruktorska, 11A - PL - 02-673 Warszawa tel. +48 22 458 92 73 fax +48 22 458 92 61 Emerson Network Power Russian Rep.Office Letnikovskaya str., 10, build 2 - 115114, Moscow tel.+7 (095) 981 98 11 fax+7 (095) 981 98 14

Emerson Network Power SA Spain Eduardo Torroja, 23 Poligono Ind. Leganes 28914 Leganes - Madrid tel. +34 91 4957700 fax + 34 9149578 49 Emerson Network Power AG Switzerland Raeffelstrasse 29 - 8045 Zürich tel. +41 1 456 50 60 fax +41 1 456 50 70 Emerson Network Power Ltd United Kingdom Fourth Avenue, Globe Park - Marlow Buckinghamshire SL71YG tel. +44 1628 403200 fax +44 1628 403203

Emerson Network Power.

www.eu.emersonnetworkpower. com

The global leader in enabling business-critical continuity.

[email protected]

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