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7

1"

Schedule 40 pipe 1.049 in. i.d. / Type L Copper tube 1.025 in. i.d

.

GPM

Velocity

Ft/S

Friction Loss

Ft Hd./100’ of pipe

Velocity

Ft/S

Ft Hd./

100’ Pipe

Fric. Loss

C=130

Steel

C=100

PVC

C=140

2.0

0.74

0.60

0.32

.078

0.41

3.0

1.11

1.26

0.68

1.17

0.87

4.0

1.49

2.14

1.15

1.56

1.48

5.0

1.86

3.24

1.75

1.95

2.23

6.0

2.23

4.54

2.45

2.34

3.13

8.0

2.97

7.73

4.16

3.11

5.35

10

3.71

11.7

6.31

3.89

8.08

12

4.46

16.4

8.85

4.67

11.3

14

5.20

21.8

11.8

5.45

15.0

16

5.94

27.9

15.1

6.22

19.2

18

6.68

34.7

18.7

7.00

23.9

20

7.43

42.1

22.8

7.78

29.0

25

9.29

63.6

34.6

9.74

43.9

30

11.1

89.2

48.1

11.7

61.4

40

14.9

152

82.0

15.5

105

1-1/2"

Schedule 40 pipe 1.610 in. i.d. / Type L Copper tube 1.505 in. i.d.

GPM

Velocity

Ft/S

Friction Loss

Ft Hd./100’ of pipe

Velocity

Ft/S

Ft Hd./

100’ Pipe

Fric. Loss

C=130

Steel

C=100

PVC

C=140

6.0

0.95

0.57

0.31

1.08

0.49

8.0

1.26

0.96

0.52

1.44

0.82

10

1.58

1.45

0.79

1.80

1.24

12

1.89

2.04

1.10

2.16

1.73

15

2.36

2.95

1.59

2.70

2.62

20

3.15

5.24

2.83

3.60

4.46

25

3.94

7.90

4.26

4.51

6.74

30

4.73

11.1

6.00

5.41

9.44

40

6.30

18.9

10.2

7.21

16.1

50

7.88

28.5

15.4

9.01

24.3

60

9.46

40.0

21.6

10.8

34.1

70

11.0

53.2

28.7

12.6

45.5

80

12.6

68.1

36.8

14.4

58.1

90

14.2

84.7

45.7

16.2

72.1

100

15.8

103

56.6

18.0

87.7

1-1/4"

Schedule 40 pipe 1.380 in. i.d. / Type L Copper tube 1.265 in. i.d.

GPM

Velocity

Ft/S

Friction Loss

Ft Hd./100’ of pipe

Velocity

Ft /S

Ft Hd./

100’ Pipe

Fric. Loss

C=130

Steel

C=100

PVC

C=140

4.0

0.86

0.56

0.30

1.02

0.52

6.0

1.29

1.20

0.65

1.53

1.12

8.0

1.72

2.04

1.10

2.04

1.92

10

2.15

3.08

1.67

2.55

2.90

12

2.57

4.31

2.33

3.06

4.04

14

2.00

5.73

3.10

3.57

5.35

16

3.43

7.34

3.96

4.08

6.85

18

3.86

9.13

4.93

4.59

8.52

20

4.29

11.1

6.00

5.10

10.4

25

5.36

16.8

9.06

6.38

15.7

30

6.43

23.5

12.7

7.65

22.1

40

8.58

40.0

21.6

10.2

37.6

50

10.7

60.4

32.6

12.8

56.7

60

12.9

84.7

45.6

15.3

79.5

80

17.2

144

77.9

20.4

136

2"

Schedule 40 pipe 2.067 in. i.d. / Type L Copper tube 1.985 in. i.d.

GPM

Velocity

Ft/S

Friction Loss

Ft Hd./100’ of pipe

Velocity

Ft/S

Ft Hd./

100’ Pipe

Fric. Loss

C=130

Steel

C=100

PVC

C=140

10

0.96

0.43

0.23

1.07

0.35

15

1.44

0.92

0.50

1.60

.075

20

1.91

1.55

0.84

2.13

1.24

25

2.39

2.35

1.27

2.66

1.87

30

2.87

3.29

1.78

3.19

2.62

40

3.82

5.60

3.03

4.26

4.48

50

4.78

8.46

4.57

5.32

6.76

60

5.74

11.9

6.44

6.39

9.47

70

6.69

15.8

8.53

7.45

12.6

80

7.65

20.2

10.9

8.52

16.2

90

8.61

25.1

13.6

9.58

20.0

100

9.56

30.5

16.5

10.7

24.4

120

11.5

42.7

23.1

12.8

34.1

150

14.3

64.7

35.0

16.0

51.6

200

19.1

110

59.4

21.3

87.8

Note:

 Chart shows friction loss per 100’ of pipe. 

To convert to friction loss per foot, move decimal point two places to the left.

APPENDIX 2 - FRICTION LOSS TABLES

Summary of Contents for C1 SERIES

Page 1: ...s symbol on your pump or in the manual look for one of the following signal words and be alert to the potential for personal injury warns about hazards that will cause serious personal injury death or major property damage if ignored CAUTION DANGER warns about hazards that can cause serious personal injury death or major property damage if ignored warns about hazards that will or can cause minor p...

Page 2: ......

Page 3: ...h circuit with no other appliances on it Do not operate pump unless pump is grounded Solder and tape all spliced connections carefully A fused disconnect switch or circuit breaker should be placed at or near the pump Wire motor for correct voltage See Electrical Installation section of this manual and motor nameplate The C1 Series is available to operate on either 230V or 115V input power Check pr...

Page 4: ...es 2 As the piping size decreases Refer to the included C1 Series performance curves Appendix 1 and friction loss tables Appendix 2 to determine the amount of head lost for a given application PUMP INSTALLATION PROCEDURE 1 Disconnect electrical power at the main breaker 2 A qualified professional installer should be used to install the pump system and any associated control devices 3 Pump is not t...

Page 5: ... so that the system demand will not exceed what can be supplied To ensure that the system is never run dry it may be necessary to set up a float switch system The float switch should be adjusted to allow the pump to remove the most water possible but not so much that the water level goes below the pumps suction screen If the water goes below the suction screen air will be drawn into the pump Pumpi...

Page 6: ... 80 100 120 140 160 180 200 220 240 260 0 5 10 15 20 25 30 35 40 45 50 Flow gpm 25 0 50 75 100 125 150 175 Feet 10 20 30 40 50 60 70 10 20 30 40 50 60 70 80 90 100 0 0 Head ft PSI Meters LPM GPM 10 GPM 20X GPM 20 GPM 30 GPM C1 Series Family Curve ...

Page 7: ...15 8 103 56 6 18 0 87 7 1 1 4 Schedule 40 pipe 1 380 in i d Type L Copper tube 1 265 in i d GPM Velocity Ft S Friction Loss Ft Hd 100 of pipe Velocity Ft S Ft Hd 100 Pipe Fric Loss C 130 Steel C 100 PVC C 140 4 0 0 86 0 56 0 30 1 02 0 52 6 0 1 29 1 20 0 65 1 53 1 12 8 0 1 72 2 04 1 10 2 04 1 92 10 2 15 3 08 1 67 2 55 2 90 12 2 57 4 31 2 33 3 06 4 04 14 2 00 5 73 3 10 3 57 5 35 16 3 43 7 34 3 96 4 ...

Page 8: ...was damaged as a result of negligence abuse accident misapplication tampering alteration improper installation operation maintenance or storage nor to an excess of recommended maximums as set forth in the product instructions NEITHER SELLER NOR THE COMPANY SHALL BE LIABLE FOR ANY INJURY LOSS OR DAMAGE DIRECT INCIDENTAL OR CONSEQUENTIAL INCLUDING BUT NOT LIMITED TO INCIDENTAL OR CONSEQUENTIAL DAMAG...

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