Russia, 443079, Samara, Avrora st. 114

Phone: (846)

 266-66-66

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Chiller - Screw chiller

Screw chiller

Model of a chiller

50/ 50/ 50

60/ 60/ 60

70/ 70/ 70

80/ 80/ 80

90/ 90/ 90

110/ 110/ 110

125/ 125/ 125

Cooling capacity (Q0) T0 =+2°C,

T. = +45,kW

124

152

186

212

239

308

346

Unit model

-CSH6551

-CSH6561

-CSH7551

-CSH7561

-CSH7571

-CSH8551

-CSH8561

Evaporator model

SCE 125

SCE 90 (2)

SCE 90 (2)

SCE 110 (2)

SCE 125 (2)

SES 320

SES 360

A number of compressors

1

1

1

1

1

1

1

A number of power levels

1

1

1

1

1

1

1

A number of cicuits

1

2

2

2

2

1

1

Nominally acceptable water discharge, m3/hour

22

26

32

37

41

53

59

Pressure loss on evaporator,

no more than Pa

40

40

40

40

40

40

40

Pumping sation model

200 Pa (20m)

30-200

15-200 (2)

15-200 (2)

30-200 (2)

30-200 (2)

60-200

60-200

Pumping station model

400 Pa (40m)

30-400

15-400 (2)

15-400 (2)

30-400 (2)

30-400 (2)

60-400

60-400

Hydro-module model

200 Pa

300/30-200

100/15-200 (2)

100/15-200 (2)

300/30-200 (2)

300/30-200 (2)

500/60-200

500/60-200

Hydro-module model

400 Pa

300/30-400

100/15-400 (2)

100/15-400 (2)

300/30-400 (2)

300/30-400 (2)

500/60-400

500/60-400

Cost of a chiller without pumping station or hydro-module, rub.

1 404 000

1 512 000

1 728 000

1 836 000

2 052 000

2 376 000

2 592 000

Cost of pumping station 200 Pa (20m)

75 000

100 000

100 000

150 000

150 000

125 000

125 000

Cost of pumping station 400 Pa (40m)

100 000

120 000

120 000

200 000

200 000

180 000

180 000

Cost of hydro-module 200 Pa (20m)

130 000

170 000

170 000

260 000

260 000

195 000

195 000

Cost of hydro-module 400 Pa (40m)

160 000

190 000

190 000

320 000

320 000

250 000

250 000

Cost of option

113 076

113 076

113 076

113 076

145 314

145 314

145 314

Cost of option

108 000

108 000

108 000

108 000

108 000

108 000

108 000

Dimensions (length) mm

2250

2250

2600

2600

2600

2600

3900

Dimensions (width) mm

1300

1300

2250

2250

2250

2250

2250

Dimensions (height) mm

2296

2296

2296

2296

2296

2296

2296


Q – cooling capacity under the folowing conditions with R 22:

- condensation temperature T. = +45;

- boiling tempreature T0 =+2C.

* - Maximum hydraulic resistance of the water at the site of water consumption should not exceed by :

200 150 Pa (15 meters of water column),

400 350Pa (35 meters of water column).

** Dimensions of the module are indicated without condensing unit.

Model of a chiller

140/ 140/ 140

180/ 180/ 180

210/ 210/ 210

240/ 240/ 240

280/ 280/ 280

300/ 300/ 300

Cooling capacity (Q0) T0 =+2C,

T. = +45,kW

392

523

595

673

755

837

Unit model

-CSH8571

-CSH9551

-CSH9561

-CSH9571

-CSH9581

-CSH9591

Evaporator model

SES 420

SES 570

SES 320 (2)

SES 360 (2)

SES 390 (2)

SES 420 (2)

A number of compressors

1

1

1

1

1

1

A number of power levels

1

1

1

1

1

1

A number of cicuits

1

1

2

2

2

2

Nominally acceptable water discharge, m3/hour

67

89

102

115

129

143

Pressure loss on evaporator,

no more than Pa

40

40

40

40

40

40

Pumping sation model

200 Pa (20m)

75-200

90-200

60-200 (2)

60-200 (2)

75-200 (2)

75-200 (2)

Pumping station model

400 Pa (40m)

75-400

90-400

60-400 (2)

60-400 (2)

75-400 (2)

75-400 (2)

Hydro-module model

200 Pa

500/75-200

500/90-200

500/60-200 (2)

500/60-200 (2)

500/75-200 (2)

500/75-200 (2)

Hydro-module model

400 Pa

500/75-400

500/90-400

500/60-400 (2)

500/60-400 (2)

500/75-400 (2)

500/75-400 (2)

Cost of a chiller without pumping station or hydro-module, rub.

2 808 000

3 834 000

4 158 000

4 698 000

5 076 000

5 346 000

Cost of pumping station 200 Pa (20m)

150 000

175 000

250 000

250 000

300 000

300 000

Cost of pumping station 400 Pa (40m)

220 000

260 000

360 000

360 000

440 000

440 000

Cost of hydro-module 200 Pa (20m)

220 000

250 000

390 000

390 000

440 000

440 000

Cost of hydro-module 400 Pa (40m)

290 000

340 000

500 000

500 000

580 000

580 000

Cost of option

166 806

242 622

242 622

242 622

242 622

242 622

Cost of option

108 000

108 000

108 000

108 000

108 000

108 000

Dimensions (length) mm

3900

5200

5200

6500

6500

7800

Dimensions (width) mm

2250

2250

2250

2250

2250

2250

Dimensions (height) mm

2296

2296

2296

2296

2296

2296

Q cooling capacity under the folowing conditions with R 22:

- condensation temperature T. = +45;

- boiling tempreature T0 =+2C.

* - Maximum hydraulic resistance of the water at the site of water consumption should not exceed by :

200 150 Pa (15 meters of water column),

400 350Pa (35 meters of water column).

** Dimensions of the module are indicated without condensing unit.

LEADER-S Ltd.

Samara, Avrora st. 114A

tel: (846) 266 66 62

e-mail:illarionov@leader-cool.ru

Components of a chiller:

1 – compressor

2 condenser (they are located on the same frame)

3 evaporator (located inside the room and connected with the unit by two copper pipings)

The given system is very similar to a domestic air-conditioner (split-system), but in the given case instead of air condenser (unit cooler) the water condenser is used. The given model can be used as cooling under winter conditions, in case of air-conditioning of server rooms, cooling of different plastic and paper producing equipment, and to cool “working body” which will be intermediate (propylene glycol, ethylene glycol) and then to cool the final product (beer, milk, coca-cola and so forth) trough the second heat exchanger. When using n winter it is necessary to install additional options () for winter starting of a chiller and its work at air temperature -32°C. This solution excludes a chance to defrost evaporator in the street, herewith a possibility to give heat in a room is excluded. Besides the solution does not require a space in a room and together with it we do not hear how the chiller operates. The control panel of a chiller and pumping station is located near the evaporator in a room, and we can observe all pressure and temperature parameters in all sections of refrigeration unit work.

Thanks to options we not only save space, we do not need to build separate units (in case of big powers). The options are responsible for condensation pressure control, they have additional heaters of compressor crankcase, condenser and pipes. The whole system works via the microprocessor and gets the chiller in the operation mode during 10 minutes, after that the chiller turns on, but the options turns off. In cyclic operation of the chiller the options do not go on. This solution of liquid cooling was worked out and tested by GC Leader especially for Russia and countries with low winter temperature. The flaw of the system is a necessity to handle qualified assembling while installing the equipment, the same while installing a domestic split-system.

Advantages of the system: 1 a chiller can operate with additional options at low temperatures (to -32C), 2 a possibility for an evaporator to defrost from an ambient temperature is ruled out, 3 a condenser and a compressor being in the street discharge heat and sound pressure outdoors, 4 there is no need in a separate space and building a power-unit room.

Disadvantages of the system: a necessity to fulfill qualified assembling.

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Application in the fields of

LEADER-S Ltd.

Samara, Avrora st. 114A

tel: (846) 266 66 62

e-mail:illarionov@leader-cool.ru

Components of a chiller:

1 – compressor

2 condenser (they are located on the same frame)

3 evaporator (located inside the room and connected with the unit by two copper pipings)

The given system is very similar to a domestic air-conditioner (split-system), but in the given case instead of air condenser (unit cooler) the water condenser is used. The given model can be used as cooling under winter conditions, in case of air-conditioning of server rooms, cooling of different plastic and paper producing equipment, and to cool “working body” which will be intermediate (propylene glycol, ethylene glycol) and then to cool the final product (beer, milk, coca-cola and so forth) trough the second heat exchanger. When using n winter it is necessary to install additional options () for winter starting of a chiller and its work at air temperature -32°C. This solution excludes a chance to defrost evaporator in the street, herewith a possibility to give heat in a room is excluded. Besides the solution does not require a space in a room and together with it we do not hear how the chiller operates. The control panel of a chiller and pumping station is located near the evaporator in a room, and we can observe all pressure and temperature parameters in all sections of refrigeration unit work.

Thanks to options we not only save space, we do not need to build separate units (in case of big powers). The options are responsible for condensation pressure control, they have additional heaters of compressor crankcase, condenser and pipes. The whole system works via the microprocessor and gets the chiller in the operation mode during 10 minutes, after that the chiller turns on, but the options turns off. In cyclic operation of the chiller the options do not go on. This solution of liquid cooling was worked out and tested by GC Leader especially for Russia and countries with low winter temperature. The flaw of the system is a necessity to handle qualified assembling while installing the equipment, the same while installing a domestic split-system.

Advantages of the system: 1 a chiller can operate with additional options at low temperatures (to -32C), 2 a possibility for an evaporator to defrost from an ambient temperature is ruled out, 3 a condenser and a compressor being in the street discharge heat and sound pressure outdoors, 4 there is no need in a separate space and building a power-unit room.

Disadvantages of the system: a necessity to fulfill qualified assembling.

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