Russia, 443079, Samara, Avrora st. 114

Phone: (846)

 266-66-66

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Pumping station and hydraulic modules - Pumping station

Model

Pump model

Pedrollo (Itally)

Pump

power, W

Capacity,

m3/h

Pressure, P

Max. capacity,

m3/h

Max.

pressure, P

Diameter

inlet/out let,

inch

Price,

rub.

3-50

RS 25/8

0,165

3

50

6,6

80

22

56 000

15-100

HF 5B

0,75

13

100

30

137

22

64 000

15-200

HF 5AM

1,5

15

200

36

220

22

80 000

15-400

F 32/200AH

4,0

15

400

27

440

21.25

84 000

30-100

HF 5B (2 )

1,5

25

100

60

137

22

77 000

30-200

HF 5AM (2 )

3,0

30

200

72

220

22

105 000

30-400

F 32/200AH (2 )

8,0

30

400

54

440

21.25

130 000

45-100

HF 5B (3 )

2,25

40

100

90

137

22

87 500

45-200

HF 5AM (3 )

4,5

45

200

108

220

22

125 000

45-400

F 32/200AH (3 )

12,0

45

400

81

440

21.25

175 000

60-100

HF 5B (4 )

3,0

50

100

120

137

22

102 000

60-200

HF 5AM (4 )

6,0

60

200

144

220

22

145 000

60-400

F 32/200AH (4 )

16,0

60

400

108

440

21.25

180 000

















* - Installation of the similar pump with the same features is possible

LEADER-S Ltd.

Samara, Avrora st. 114A

tel: (846) 266 66 62

e-mail:illarionov@leader-cool.ru

A sample how to select a pumping station:

Suppose that we need a chiller for 75kW. In this case a chiller of the model 103 is suitable, one can choose a pumping station of the models HC 15-200 or HC 15-400 for it. The first figure 15 means water duct in m3/hour, the second figure 200 or 400 means the strength (20m or 40m) at which the pump runs 15m3 of water per hour through. According to the table we see that hydraulic losses from the evaporator of the chiller are 40kPa (4m of water column), this means that in the first case we can maximum raise water or add hydraulic strength (200-40) = 160kPa (16m), in the second case (400 – 40) = 360kPa (36 m). In case of absence of water hydraulic strengths or less water resistance in your consumers, water quantity being pumped will rise that is allowed while the chiller and pumping station operate. Although it is not worth taking pumping stations with a large supply, as electrical power of the first station is 1,5 kW, and that of the second one is 4 kW, but the water quantity will be approximately the same.

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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

A sample how to select a pumping station:

Suppose that we need a chiller for 75kW. In this case a chiller of the model 103 is suitable, one can choose a pumping station of the models HC 15-200 or HC 15-400 for it. The first figure 15 means water duct in m3/hour, the second figure 200 or 400 means the strength (20m or 40m) at which the pump runs 15m3 of water per hour through. According to the table we see that hydraulic losses from the evaporator of the chiller are 40kPa (4m of water column), this means that in the first case we can maximum raise water or add hydraulic strength (200-40) = 160kPa (16m), in the second case (400 – 40) = 360kPa (36 m). In case of absence of water hydraulic strengths or less water resistance in your consumers, water quantity being pumped will rise that is allowed while the chiller and pumping station operate. Although it is not worth taking pumping stations with a large supply, as electrical power of the first station is 1,5 kW, and that of the second one is 4 kW, but the water quantity will be approximately the same.

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