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Bingshan skraplacz oparów
  • Bingshan
  • Chiny
  • 60-90days
  • 3000 set / rok

Zaawansowana technologia
BSPL cewki wyłącznym kondensacji są wytwarzane w SPL z wysokiej jakości stali rury po najsurowszych kontroli jakości. Każdy obwód jest kontrolowane w celu zapewnienia najwyższej jakości materiału.
Wszystkie zwoje BSPL jest formowana w jednym ciągłym kawałkiem stosując unikalną automatycznej linii produkcyjnej cewki, proces spawania granice żużla, wydajność produkcyjna wzrasta i fabryczne czasu realizacji.
Cewki są hydro-logicznie testowane 3 razy w czasie procesu wytwarzania, w celu 2.5Mpa aby zapewnić, że są szczelne.
W celu ochrony przed korozją cewki, cewki są umieszczone na ramie maszyny stali, a następnie cały zespół zanurza się w stopionym cynku, (ocynkowanej) w temperaturze 427 ° C. Probówki tonie w kierunku przepływu płynu, aby zapewnić dobry przepływ cieczy.

Evaporative Condenser 

BSPL Series Features

Advanced Technology

BSPL exclusive condensing coils are manufactured at SPL from high quality steel tubing following the most stringent quality control procedures. Each circuit is inspected to assure the highest material quality.

All BSPL coils are formed in one continuous piece using a unique automatic coil production line, this process limits welding slag, increases production efficiency and factory lead times.

The coils are hydro-logically tested 3 times during the manufacturing process to 2.5Mpa to ensure they are leak free.

To protect the coil against corrosion, coils are placed in a heavy steel frame and then the entire assembly is dipped in molten zinc (hot-dip galvanized) at a temp of 427°C. The tubes are pitched in the direction of fluid flow to provide good liquid drainage.

 

 Bingshan Evaporative Condenser

Bingshan Evaporative Condenser

 

Advanced Technology-Elliptical Coil

Super Galum Wall Structure

BSPL-S Coil Technology

Advanced Technology-De-scaling cleaner

Patented Fill Technology

Patented Air Inlet Louver

Patented Drift Eliminator

Patented Metal Air Deflector

Pressurized Water Distribution System

Direct Drive Axial Fans

Containerized Design for Low Shipping Cost



Selection Criteria

The following selection procedure is applicable for screw and reciprocating compressors.

1、 Determine the refrigerants

2、 Determine the plant Saturated Condensing Temperature

This is the Saturated Condensing Temperature (SCT) that the system has been designed to in °C

3、 Determine the Wet Bulb temperature (We)

Highest annual wet bulb temperature for the location at which the plant will operate.

4、 Determine the Total Heat of Rejection (THR)

The Total Heat of Rejection (THR) for a given system is determined by adding the evaporator load in kW and the absorbed power of the compressor kW.

5、 Multiply by THR Correction Index

Once the THR has been determined multiply it by the factor for the specified operating conditions( condensing temperature and wet bulb temperature) this factor can be obtained from Table 1 for Ammonia R717 and Table 2 for R134a.

6、 Use SPL data tables to identify correct model

Look up Tables 3 to 9 and choose an evaporative condenser up a capacity greater than the corrected THR

 

Example

Steps 1,2&3

Refrigerant=R717

Saturated Condensing Temperature=329C

Wet Bulb temperature=23°C

Evaporator Load=900kW

Compressor Absorbed Power=223kW

 

Steps 4

Evaporator Load=900kW

Compressor Absorbed Power=223kW Total

Heat of Rejection (THR) 1123kW

 

Steps 5.

Refrigerant=R717

Saturated Condensing Temperature=32°C

Wet Bulb temperature=239C

Evaporator Load=900kW

Compressor Absorbed Power=223kW

From Table 1 the THR index for 32°C SCT and 23°C

WB=1.20

THR=1123 kW x 1.20=1347.6kW

Steps 6

Table 8 evaporative condenser model SPL-1380WS has a THR

>1347.6kW

Model selected BSPL-1380WS

 

Notes on Choosing Models

1. The data and specifications mentioned above are for reference only, information may be revised without prior notice.

2. Refrigerant charge refers to the amount of ammonia R717 under standard freezing running conditions, other refrigerants need to be calculated separately.

3. The operating weight in the tables is the weight of equipment, refrigerant charge and the weight of water stored in the basin.

4. Nonstandard specials are available on request.

5. The displayed capacity in the following tables is based standard working conditions of 28°C wet bulb, 38°C condensing.

 

THR Correction Index

Table 1

Heat Rejection Correction Factors for R717 - Combined Flow SPL-S & SPL-W

 

CONDENSING

TEMPERATURE

Destination Wet Bulb Temperature (^C)

°C

10

12

14

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

29

0.72

0.78

0.86

0.96

1.01

1.09

1.18

1.30

1.43

1.60

1.84

2.16

2.66

/

/

/

/

/

30

0.68

0.73

0.81

0.88

0.94

1.00

1.07

1.15

1.27

1.40

1.59

1.79

2.13

/

/

/

/

/

31

0.64

0.68

0.74

0.82

0.86

0.91

0.97

1.04

1.12

1.22

1.36

1.52

1.74

2.06

/

/

/

/

32

0.61

0.65

0.69

0.74

0.80

0.84

0.89

0.95

1.02

1.10

1.20

1.34

1.49

1.70

2.02

/

/

/

33

0.57

0.61

0.65

0.70

0.73

0.78

0.82

0.87

0.92

0.99

1.07

1.16

1.29

1.45

1.66

1.96

/

/

34

0.55

0.58

0.62

0.66

0.69

0.72

0.76

0.80

0.85

0.90

0.96

1.04

1.14

1.27

1.42

1.63

1.90

/

35

0.52

0.54

0.58

0.62

0.64

0.67

0.70

0.73

0.78

0.83

0.88

0.94

1.02

1.11

1.23

1.37

1.59

1.85

36

0.50

0.52

0.55

0.59

0.61

0.63

0.66

0.69

0.72

0.75

0.81

0.86

0.92

1.00

1.09

1.22

1.35

1.57

37

0.47

0.49

0.52

0.55

0.57

0.59

0.61

0.64

0.67

0.70

0.73

0.79

0.84

0.90

0.97

1.06

1.21

1.33

38

0.45

0.47

0.50

0.53

0.55

0.56

0.58

0.60

0.62

0.65

0.68

0.72

0.76

0.82

0.88

0.96

1.04

1.19

39

0.43

0.45

0.47

0.50

0.52

0.53

0.54

0.56

0.58

0.61

0.63

0.67

0.70

0.74

0.80

0.86

0.95

1.04

40

0.42

0.43

0.45

0.48

0.49

0.50

0.52

0.53

0.55

0.58

0.60

0.62

0.66

0.69

0.73

0.78

0.85

0.93

41

0.40

0.41

0.43

0.45

0.46

0.47

0.49

0.50

0.52

0.54

0.56

0.58

0.61

0.64

0.67

0.71

0.76

0.83

42

0.39

0.40

0.41

0.43

0.44

0.45

0.47

0.48

0.49

0.51

0.53

0.55

0.57

0.60

0.62

0.66

0.70

0.74

43

0.37

0.38

0.39

0.41

0.42

0.43

0.44

0.45

0.46

0.48

0.50

0.51

0.53

0.55

0.58

0.61

0.65

0.69

44

0.36

0.37

0.38

0.39

0.40

0.41

0.42

0.43

0.44

0.46

0.47

0.49

0.50

0.52

0.54

0.57

0.60

0.63

45

0.34

0.35

0.36

0.37

0.38

0.39

0.40

0.41

0.42

0.43

0.44

0.46

0.47

0.49

0.51

0.53

0.56

0.58

 

Table 2

Heat Rejection Correction Factors for R134A - Combined Flow SPL-S Series

 

CONDENSING 

TEMPERATURE

Destination Wet Bulb Temperature (气2)

°C

10

12

14

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

29

0.89

0.97

1.07

1.19

1.30

1.35

1.46

1.61

1.77

1.98

2.28

2.68

3.30

/

/

/

/

/

30

0.84

0.91

1.00

1.09

1.17

1.28

1.33

1.43

1.57

1.71

1.97

2.22

2.64

/

/

/

/

/

31

0.79

0.84

0.92

1.02

1.07

1.13

1.20

1.29

1.39

1.51

1.69

1.88

2.16

2.55

/

/

/

/

32

0.76

0.81

0.86

0.92

0.99

1.04

1.10

1.18

1.26

1.36

1.49

1.66

1.85

2.11

2.50

/

/

/

33

0.71

0.76

0.81

0.87

0.91

0.974

1.02

1.08

1.14

1.23

1.33

1.44

1.60

1.80

2.06

2.43

/

/

34

0.68

0.72

0.77

0.82

0.86

0.89

0.94

0.99

1.05

1.12

1.19

1.29

1.41

1.57

1.76

2.02

2.33

/

35

0.64

0.625

0.72

0.77

0.79

0.83

0.87

0.91

0.97

1.03

1.09

1.17

1.26

1.38

1.53

1.70

1.97

2.29

36

0.62

0.64

0.68

0.73

0.76

0.78

0.82

0.86

0.89

0.93

1.00

1.07

1.14

1.24

1.35

1.51

1.67

1.95

37

0.58

0.61

0.64

0.68

0.71

0.73

0.76

0.79

0.83

0.87

0.91

0.98

1.04

1.12

1.20

1.31

1.50

1.65

38

0.56

0.58

0.62

0.66

0.68

0.69

0.72

0.74

0.77

0.81

0.84

0.89

0.94

1.02

1.09

1.19

1.29

1.48

39

0.53

0.56

0.58

0.62

0.64

0.66

0.67

0.69

0.72

0.76

0.78

0.83

0.87

0.92

0.99

1.07

1.18

1.29

40

0.52

0.53

0.56

0.60

0.61

0.62

0.64

0.66

0.68

0.72

0.74

0.77

0.82

0.86

0.91

0.97

1.05

1.15

41

0.50

0.51

0.53

0.56

0.57

0.58

0.61

0.62

0.64

0.67

0.69

0.72

0.76

0.79

0.83

0.88

0.94

1.03

42

0.48

0.50

0.51

0.53

0.55

0.56

0.58

0.60

0.61

0.63

0.66

0.68

0.71

0.74

0.77

0.82

0.87

0.92

43

0.46

0.47

0.48

0.51

0.52

0.53

0.55

0.56

0.57

0.60

0.62

0.63

0.66

0.68

0.72

0.76

0.81

0.86

44

0.45

0.46

0.47

0.481

0.50

0.51

0.52

0.53

0.55

0.57

0.58

0.61

0.62

0.64

0.67

0.71

0.74

0.78

45

0.42

0.43

0.45

0.46

0.47

0.48

0.50

0.51

0.52

0.53

0.55

0.57

0.58

0.61

0.63

0.66

0.69

0.72

 

Take 3 Specification

Type

Heat 

Rejection

Water 

Evaporative Loss

Axial Prop—ll—r Fan

Circuit Pump

R22/R717

Filling Volume

Weight

Qty

Blowing Rate

Power

Pressure


Qty

Discherge 

Rate

Power

Net.

Operating

KW

TON/KW/ H

m3/h

KW

Pa

m3/h

KW

KG

KG

KG

BSPL-150WS

150

0.135

1

1x20000

1 x 0.75

1 x80


1

1 x28

1 x 0.75

33/17

2030

3230

BSPL-160WS

160

0.144

1

1 x 22000

1x1.1

1 x90


1

1 x28

1 x 0.75

33/17

2040

3270

BSPL-180WS

180

0.162

1

1x28000

1 x1.5

1x110


1

1 x28

1 x 0.75

33/17

2050

3280

BSPL-205WS

205

0.185

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

33/17

2060

3290

BSPL-225WS

225

0.203

1

1x28000

1 x1.5

1x110


1

1 x28

1 x 0.75

48/25

2170

3400

BSPL-250WS

250

0.225

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

48/25

2180

3410

BSPL-265WS

2@5

0.239

1

1x40000

1 x3.0

1x160


1

1 x28

1 x 0.75

48/25

2190

3420

SPL-295WS

295

0.266

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

66/34

2300

3530

BSPL-320WS

320

0.288

1

1x40000

1 x3.0

1x160


1

1 x28

1 x 0.75

66/34

2310

3540

BSPL-340WS

340

0.306

1

1x45000

1 x4.0

1x180


1

1 x28

1 x 0.75

66/34

2320

3550

 

Table 4 Specification

Type

Heat 

Rejection

Water 

Evaporative Loss

Axial Prop—ll—r Fan

Circuit Pump

R22/R717

Filling Volume

Weight

Qty

Blowing Rate

Power

Pressure


Qty

Discherge 

Rate

Power

Net.

Operating

KW

TON/KW/ H

m3/h

KW

Pa

m3/h

KW

KG

KG

KG

SPL-150WS

150

0.135

1

1x20000

1 x 0.75

1 x80


1

1 x28

1 x 0.75

33/17

2030

3230

SPL-160WS

160

0.144

1

1 x 22000

1x1.1

1 x90


1

1 x28

1 x 0.75

33/17

2040

3270

SPL-180WS

180

0.162

1

1x28000

1 x1.5

1x110


1

1 x28

1 x 0.75

33/17

2050

3280

SPL-205WS

205

0.185

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

33/17

2060

3290

SPL-225WS

225

0.203

1

1x28000

1 x1.5

1x110


1

1 x28

1 x 0.75

48/25

2170

3400

SPL-250WS

250

0.225

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

48/25

2180

3410

SPL-265WS

2@5

0.239

1

1x40000

1 x3.0

1x160


1

1 x28

1 x 0.75

48/25

2190

3420

SPL-295WS

295

0.266

1

1x35000

1 x2.2

1x140


1

1 x28

1 x 0.75

66/34

2300

3530

SPL-320WS

320

0.288

1

1x40000

1 x3.0

1x160


1

1 x28

1 x 0.75

66/34

2310

3540

SPL-340WS

340

0.306

1

1x45000

1 x4.0

1x180


1

1 x28

1 x 0.75

66/34

2320

3550

  

Table 5 Specification

 

Type

Heat Rejection

Water

Evaporative

Loss

Axial Propeller Fan

Circuit Pump

R22/R717

Filling Volume

Weight

Qty

Blowing Rate

Power

Pressure


Qty

Discherge Rate

Power

Net.

Operating

KW

TON/KW/

H

m3/h

KW

Pa

m3/h

KW

KG

KG

KG

SPL-525WS

525

0.473

2

2x22000

2x1.1

2x90


1

1 x53

1 x1.1

128/65

3380

5260

SPL-560WS

560

0.504

2

2x28000

2x1.5

2x110


1

1 x53

1 x1.1

128/65

3400

5280

SPL-590WS

590

0.531

2

2x35000

2x2.2

2x140


1

1 x53

1 X 1.1

128/65

3420

5300

SPL-620WS

620

0.558

2

2x40000

2x3.0

2x160


1

1 X53

1x1.1

128/65

3440

5320

SPL-645WS

645

0.581

2

2x28000

2x1.5

2x110


1

1 X53

1x1.1

152/78

3590

5470

SPL-680WS

680

0.612

2

2x 35000

2x2.2

2x140


1

1x53

1x1.1

152/78

3610

5490

SPL-705WS

705

0.635

2

2x40000

2x3.0

2x160


1

1 x 53

1x1.1

152/78

3630

5510

SPL-730WS

730

0.657

2

2x45000

2x4.0

2x180


1

1 x53

1 X 1.1

152/78

3650

5530

SPL-765WS

765

0.689

2

2x35000

2x2.2

2x140


1

1 x53

1 X 1.1

178/91

3800

5680

SPL-790WS

790

0.711

2

2x40000

2x3.0

2x160


1

1 x53

1 X1.1

178/91

3820

5700

SPL-815WS

815

0.734

2

2x45000

2x4.0

2x180


1

1 x53

1x1.1

178/91

3840

5720

 

 

Table 6 Specification

Type

Heat Rejection

Water

Evaporative Loss

Axial Propeller Fan

Circuit Pump

R22/R717 Filling Volume

Weight

Qty

Blowing Rate

Power

Pressure


Qty

Discherge Rate

Power

Net.

Operating

KW

TON/KW/ H

m3/h

KW

Pa

m3/h

KW

KG

KG

KG

SPL-855WS

855

0.770

3

3x 28000

3x1.5

3x110


1

1 x70

1x1.5

195/99

4890

9030

SPL-905WS

905

0.815

3

3 x 35000

3x2.2

3x140


1

1 x70

1x1.5

195/99

4920

9060

SPL-920WS

920

0.828

3

3 x 40000

3x3.0

3x160


1

1 X70

1 x1.5

195/99

4950

9090

SPL-980WS

980

0.882

3

3 x 45000

3x4.0

3x180


1

1 X70

1 x1.5

195/99

4980

9120

 


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