Pump performance chart d – Star Water Systems CJ101 (Flint & Walling) User Manual

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95 North Oak Street • Kendallville, IN 46755 • Copyright © 2012. All rights reserved.

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95 North Oak Street • Kendallville, IN 46755 • Copyright © 2012. All rights reserved.

Practical Suction Lifts at Various Elevations and

Water Temperatures in Degrees Fahrenheit

Altitude

60º

80º

100º 120º 140º 160º 180º 200º

Sea Level -22

-21

-20

-18

-15

-10

-4

+5

2000

-20

-19

-18

-16

-12

-7

-1

+8

4000

-17

-16

-15

-13

-10

-4

+2

+12

6000

-15

-14

-13

-11

-7

-2

+6

+16

8000

-13

-12

-10

-8

-4

+2

+9

—

10000

-10

-9

-8

-6

-2

+4

+13

—

This table gives the maximum permissible suction lift or

the minimum head permitted on the suction side of a pump

at various altitudes and liquid temperatures. A minus sign

before a number indicates suction lift. A plus sign before a

number indicates minimum head. These figures are to be

used as a guide.

PIPING
1. Use galvanized piping, rigid plastic or other

suitable pipe that will not collapse under
suction or rupture due to pressure.

2. The diameter of the suction and discharge pipe

should be no smaller than the corresponding
tappings of the pump (see Figure 3 & 4). If long
runs are encountered larger pipe should be
used. Smaller pipe will reduce the capacity of
the pump.

3. All joints and connections should have Teflon

tape or pipe sealing compound (male threads
only) applied and drawn up tightly.

The entire system must be air and

water tight for efficient operation.

PUMP INSTALLATION
Refer to Figures 5, 6, and 7 for typical installations.
Both the suction and discharge pipe should be
supported at a point near the pump to avoid
strains being placed on the pump.

1. If the pump is used as part of a permanent

installation, secure to a rigid foundation with
appropriate fasteners.

2. Locate the pump as close to the water as

possible, keeping the suction pipe as short as
conditions permit.

3. Avoid dips or pockets in offset piping or air

will accumulate at high points which will make
priming difficult.

4. The suction pipe should slope upward to the

pump inlet. A horizontal suction line must have
a gradual rise to the pump.

Pressure Gauge

Rigid
Foundation

Priming Plug

Level

Pipe
Support

Discharge Tee

Suction Pipe Installed with
Gradual Rise to Pump Inlet

Figure 7

5. On suction lift installations, a foot valve located

in the water or a check valve located as close
to the water as possible will reduce priming
time of the pump and help maintain prime. A
strainer must be used on the suction line to
filter out dirt and debris.

6. A priming tee installed in the pump discharge

port allows water to be poured into the pump
case and suction piping, which is required for
priming on suction lift installations.

7. Install a gate valve and union in the suction and

discharge lines. For removal of the pump for
service, close the gate valve and disconnect the
union.

Do not use a globe valve or other

restricting type of valve at the discharge. This will
seriously restrict the capacity of the pump.

8. Pressure Gauges - Properly sized vacuum or

pressure gauges can be installed in both the
suction and discharge pipe. The gauges will
enable observation of the pump’s performance
as well as detecting cavitation, vapor binding or
other unstable operation.

Use only components that are rated

higher than shut-off pressure of the system. Do not
exceed the pump’s maximum case pressure as listed in
the following table.

Models

Maximum Case

Pressure

CJ103

100 PSI

CJ101

160 PSI

A pressure relief valve of adequate

capacity must be installed on any installation where
the pump pressure can exceed the pressure tank’s
maximum working pressure or on systems where
the discharge line can be shut-off or obstructed.
Not providing a relief valve can cause extreme over
pressure which could result in personal injury and/or
property damage.

INSPECTION AND STORAGE
When unpacking the unit, inspect carefully for any
damage that may have occurred during shipment.
If the unit is received sometime before it can be
used, it should be inspected, recrated and stored
in a dry location.
LOCATION
IMPORTANT: In installations where property
damage might result from an inoperative or
leaking pump due to power outages, discharge
line blockage or any other reason, a back-up
system (s) and/or warning system (s) should be
used.Install a gate valve and union in the suction
and discharge lines. For removal of the pump for
service, close the gate valve and disconnect the
union.
1. Locate pump as close to the fluid source as

possible.

2. Place unit where the motor electrical

components and piping are protected from the
weather and extremes of heat, humidity and
below freezing temperatures.

3. Mount unit in a dry location that is easily

accessible for inspection and maintenance. If
a dry location is not available, mount it on a
foundation well above the wet floor.

4. Allow ample clearance around unit for free air

circulation.

5. CJ103 Series pumps incorporate a discharge

port on the pump casing that can be adjusted
in 90 increments. If necessary, adjust the
discharge port to accommodate the specific
application. Pump performance will not be
affected by the position of the discharge port.

SUCTION LIMITATIONS
1. Units are non self-priming. Normally after

being primed the total suction lift of the pump
is 25 feet. Suction lift varies depending upon
elevation (altitude) and water temperature. See
Practical Suction Lift chart.

2. Where liquids at or near their boiling points

are being handled, the supply must be located
above the suction, so that the available NPSH
will be greater than that required by the unit.

Pump Performance

Chart D



To convert to feet of head, multiply by 2.31.

* Operation of pump in this range may result in m otor damage.



Do not exceed the maximum case pressure and maximum liquid temperature rating of the pump.

Suction & Discharge Tapping: 1-1/2” X 1-1/4”

Motor Voltage:

Single phase:

1/3 - 115V; 1/2 thru 2 HP - 115/230V; 3 HP - 230V, 60HZ

Three phase:

1/2 thru 2 HP - 208-230/460V - 50/60HZ

3 HP - 208-230/460V - 60HZ

Single

Phase

Model No.

Three

Phase

Model No.

HP

Stage

GPM at Total Pressure in PSI

Max.

Press.

PSI



Max.

Case

Press.

PSI



Max.

Liquid

Temp.

15

20

25

30

35

40

50

60

70

80

90

BRASS IMPELLER MODELS

CJ103031

-

1/3

1

41

30

10

27

100

200°F

CJ103051

CJ103053

1/2

1

48

40

27

30

100

200°F

CJ103071

CJ103073

3/4

1

62

58

46

31

33

100

200°F

CJ103101

CJ103103

1

1

70

66

58

48

34

40

100

200°F

CJ103151

CJ103153

1-1/2

1

*

75

70

61

51

36

44

100

200°F

CJ103201

CJ103203

2

1

*

*

79

77

68

57

45

100

200°F

CJ101B071 CJ101B073

3/4

2

*

*

32

29

25

22

5

53

160

200°F

CJ101B101 CJ101B103

1

2

*

*

35

32

29

27

23

3

62

160

200°F

CJ101B151 CJ101B153 1-1/2

2

*

*

42

39

37

34

28

19

68

160

200°F

CJ101B201 CJ101B203

2

2

*

*

45

44

43

40

34

26

70

160

200°F

CJ101C201 CJ101C203

2

3

*

*

42

41

40

38

35

31

27

20

7

93

160

200°F

CJ101C301 CJ101C303

3

3

*

*

51

50

49

43

41

40

35

29

21

95

160

200°F

THERMOPLASTIC IMPELLER MODELS

CJ101P071 CJ101P073

3/4

2

*

*

31

28

23

20

48

160

160°F

CJ101P101 CJ101P103

1

2

*

*

34

31

30

29

19

60

160

160°F

CJ101P151 CJ101P153 1-1/2

2

*

*

46

44

41

37

31

14

61

160

160°F

CJ101P201 CJ101P203

2

2

*

*

45

44

42

39

31

21

65

160

160°F

CJ101D201 CJ101D153

2

3

*

*

41

40

38

37

33

29

24

17

89

160

160°F

CJ101D301 CJ101D303

3

3

*

*

*

46

45

45

42

38

33

27

18

93

160

160°F