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RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 200 12001000400 600 16000 [0]
1 [3.8]
2 [7.6]
SERIES: F1GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400800 1800 2000
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]
150 PSI [1034.2 kPa]
.01 [.04]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.1 [.38]
300 PSI [2068.4 kPa]
.004 [.02]
.02 [.08]
.04 [.15]
.2 [.76]
.4 [1.5]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
SERIES: F1
250 PSI [1723.7 kPa]
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F1
GRAPH 3INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
.4 [.30]
.1 [.07]
150 PSI [
1034.2 kP
a]
50 PSI [344.7 kPa]
200 PS
I [1379 k
Pa]250
PSI [1
723.7 k
Pa]
300 P
SI [20
68.4
kPa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
.3 [.22]
100 PSI [689.
5 kPa]
1400 1600 1800
.2 [.15]
2000
.5 [.37]
VISCOSITY - SSU [cSt]
800 RPM
1000 RPM
1200 RPM
1500 RPM
1800 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F1GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
.01 [.007]
.04 [.03]
.1 [.07]
.001 [.0007]
.002 [.0015]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.004 [.003]
.02 [.015]
.2 [.15]
[208
2]
[104
1]
[694
]
[521
]
[417
]
[347
]
[298
][26
1]
[232]
[209]
[189]
[168]
[148]
[128]
[108]
[89]
[72]
[55]
[41]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
SERIES: F1(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
400 1200 2800
[208
2]
[104
1]
[694
]
[521
]
[417
]
[347
]
[298
][26
1]
[232]
[209]
[189]
[168]
[148]
[128]
[108]
[89]
[72]
[55]
[41]
[SSU]
400
SERIES: F1(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
1200 2800
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 400 12001000200 600 16000 [0]
1 [3.8]
2 [7.6]
SERIES: F3GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400800 1800
3 [11.4]
4 [15.1]
2000
5 [18.9]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
250 PSI [1723.7 kPa]
50 PSI [344.7 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]150 PSI [1034.2 kPa]
1 [3.8]
.01 [.04]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.1 [.38]
300 PSI [2068.4 kPa]
.02 [.08]
.04 [.15]
.2 [.76]
.4 [1.5]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
SERIES: F3
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F3
GRAPH 3INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
.4 [.30]
.1 [.07]
150 PSI [1
034.2 kPa
]
50 PSI [344.7 kPa]
200 PS
I [1379 k
Pa]250
PSI [1
723.7 k
Pa]
300 P
SI [20
68.4
kPa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
.3 [.22]
100 PSI [689.
5 kPa]
1400 1600 1800
.2 [.15]
2000
.5 [.37]
.6 [.45]
.7 [.52]
.8 [.6]
VISCOSITY - SSU [cSt]
800 RPM
1000 RPM
1200 RP
M
1500 RP
M1800
RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F3GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
.01 [.007]
.04 [.03]
.1 [.07]
.4 [.30]
.5 [.37]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.004 [.003]
.02 [.015]
.2 [.15]
[145
9]
[730
]
[487
]
[365
]
[292
]
[244
]
[210
][18
4]
[164]
[148]
[134]
[120]
[107]
[93]
[80]
[68]
[57]
[47]
[36]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F3(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
[101
3]
[507
]
[338
]
[254
]
[204
]
[171
]
[147
][13
0]
[116]
[106]
[96]
[87]
[79]
[70]
[62]
[55]
[47]
[40]
[33]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F3(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 400 12001000200 600 16000 [0]
1 [3.8]
2 [7.6]
SERIES: F5GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400800 1800
3 [11.4]
4 [15.1]
6 [22.7]
5 [18.9]
7 [26.5]
2000
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
250 PSI [1723.7 kPa]
50 PSI [344.7 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]
150 PSI [1034.2 kPa]
1 [3.8]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.1 [.38]
300 PSI [2068.4 kPa]
.02 [.08]
.04 [.15]
.2 [.76]
.4 [1.5]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
.01 [.04]
1.5 [5.68]
SERIES: F5
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F5GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
.4 [.30]
.8 [.60]
150 PSI [1
034.2 kPa
]
50 PSI [344.7 kPa]
200 PS
I [1379 k
Pa]250
PSI [1
723.7 k
Pa]30
0 PSI
[2068
.4 kP
a]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
1.2 [.89]
100 PSI [689.5
kPa]
1400 1600 1800
.2 [.15]
2000
1 [.75]
.6 [.45]
1.4 [1.04]
\VISCOSITY - SSU [cSt]
800 RPM
1000 RPM
1200 RPM
1500 RPM
1800 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F5GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
.1 [.07]
.4 [.30]
1 [.75]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.007 [.005]
.2 [.15]
.04 [.03]
.6 [.45]
.01 [.007]
.02 [.015]
\[121
1]
[606
]
[404
]
[303
]
[243
]
[203
]
[175
][15
4]
[137]
[124]
[113]
[102]
[91]
[80]
[70]
[60]
[52]
[43]
[35]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F5(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
\[841
]
[421
]
[281
]
[211
]
[170
]
[143
]
[123
][10
9]
[99]
[90]
[83]
[76]
[69]
[62]
[56]
[50]
[44]
[38]
[32]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F5(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
2 [7.6]
4 [15.1]
6 [22.7]
8 [30.3]
10 [37.9]
12 [45.4]
SERIES: F10GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400 1600 1800
14 [53]
2000
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
200 PSI [1379 kPa]
50 PSI [344.7 kPa]100 PSI [689.5 kPa]
250 PSI [1723.7 kPa]
300 PSI [2068.4 kPa]
.4 [1.51]
.04 [.15]
.1 [3.8]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.2 [.76]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
SERIES: F10
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F10GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
2.5 [1.86]
1.5 [1.19]
150 PSI [1
034.2 kPa
]200
PSI [13
79 kPa]250
PSI [1
723.7 k
Pa]300
PSI [2
068.4 k
Pa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
3 [2.24]
100 PSI [689.5
kPa]
1400 1600 1800
.5 [.37]
1 [.75]
2 [1.49]
2000
50 PSI [344.7 kPa]
VISCOSITY - SSU [cSt]
800 RPM
1000 RPM
1200 RPM
1800 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F10GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1500 RPM
.1 [.07]
.4 [.30]
1 [.75]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
2 [1.5]
.2 [.15]
.04 [.03]
.01 [.007]
.02 [.015]
[663
]
[332
]
[222
]
[168
]
[135
]
[114
]
[100
][89
][81
]
[75]
[69]
[64]
[59]
[54]
[49]
[45]
[40]
[36]
[31]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F10(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
[461
]
[231
]
[156
]
[119
]
[97] [84]
[74] [68
][63
]
[59]
[55]
[52]
[49]
[45]
[42]
[39]
[36]
[33]
[29]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F10(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 1200600
0 [0]
2 [7.6]
4 [15.1]
6 [22.7]
8 [30.3]
10 [37.9]
12 [45.4]
SERIES: F15GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400 1600 1800
14 [53]
16 [60.6]
18 [68.1]
20 [75.7]
22 [83.3]
24 [90.8]
2000
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
200 PSI [1379 kPa]
250 PSI [1723.7 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
300 PSI [2068.4 kPa]
.4 [1.51]
.04 [.15]
.1 [3.8]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.2 [.76] 150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
5 [18.9]
SERIES: F15
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F15GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
300 P
SI [20
68.4
kPa]
100 PSI [689.5
kPa]
200 PS
I [1379 k
Pa]
150 PSI [1
034.2 kPa
]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
1.5 [1.12]
50 PSI [344.7 kPa]
1400 1600 1800
.5 [.37]
1 [.75]
2.0 [1.49]
2.5 [1.86]
2000
3 [2.24]
3.5 [2.61]
4 [2.98]
4.5 [3.36]
250 PS
I [1723
.7 kPa]
VISCOSITY - SSU [cSt]
800 RP
M100
0 RPM
1200 RP
M
1800 RP
M
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F15GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1500 RP
M
.1 [.07]
.4 [.30]
1 [.75]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
2 [1.5]
.2 [.15]
.04 [.03]
4 [2.98]
[461
]
[265
]
[178
]
[135
]
[110
]
[94]
[83] [75
][69
]
[64]
[60]
[56]
[52]
[48]
[45]
[41]
[37]
[34]
[30]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F15(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
[529
]
[265
]
[178
]
[135
]
[110
]
[94]
[83] [75
][69
]
[64]
[60]
[56]
[52]
[48]
[45]
[41]
[37]
[34]
[30]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F15(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
2 [7.6]
4 [15.1]
18 [68.1]
22 [83.3]
10 [37.9]
26 [98.4]
SERIES: F20GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
1400 1600 1800
20 [75.7]
2000
6 [22.7]
8 [30.3]
12 [45.4]
14 [53]
16 [60.6]
24 [90.8]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.4 [1.51]
.07 [.26]
.1 [3.8]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.2 [.76]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
7 [26.5]
SERIES: F20
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F20GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.5
kPa]
200 PSI
[1379 k
Pa]
150 PSI [1
034.2 kPa
]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
3 [2.24]
50 PSI [344.7 kPa]
1400 1600 1800
1 [.75]
2 [1.49]
2000
4 [2.98]
5 [3.73]
300 PS
I [2068
.4 kPa
]
VISCOSITY - SSU [cSt]
800 RPM
1000 RP
M1200
RPM
1800 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F20GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
5 [3.73]
1500 RPM
.1 [.07]
.4 [.30]
1 [.75]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
2 [1.5]
.2 [.15]
.04 [.03]
4 [2.98]
[635
]
[318
]
[213
]
[161
]
[130
]
[110
]
[96] [86
][78
]
[72]
[67]
[62]
[57]
[53]
[48]
[44]
[40]
[35]
[30]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F20(BRONZE BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
[635
]
[318
]
[213
]
[161
]
[130
]
[110
]
[96] [86
][78
]
[72]
[67]
[62]
[57]
[53]
[48]
[44]
[40]
[35]
[30]
[SSU]
RPM
P
R
E
S
S
U
R
E
-
P
S
I
400 1200 2800
SERIES: F20(IRON BEARINGS)
0
20
40
60
80
100
0 1600800
120
140
160
180
200
220
240
260
280
300
2000 36002400 3200
PV LIMIT CURVE
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
5 [18.9]
15 [56.8]
25 [94.6]
30 [113.6]
10 [37.9]
35 [132.5]
SERIES: F35GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
14001300 1500
20 [75.7]
40 [151.4]
45[170.3]
50 [189.3]
60 [227.1]
100 300 500 700 900 1100
55 [208.2]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
200 PSI [1379 kPa]
250 PSI [1723.7 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
300 PSI [2068.4 kPa]
.4 [1.51]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.1 [.38]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
.2 [.76]
SERIES: F35
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F35GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
200 PS
I [1379 k
Pa]
100 PSI [689.
5 kPa]
300 P
SI [20
68.4
kPa]
150 PSI [1
034.2 kPa
]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
100
50 PSI [344.7 kPa]
14001300 1500300
1 [.75]
2 [1.49]
10 [7.46]
3 [2.24]
9 [6.71]
4 [2.98]
7 [5.22]
5 [3.73]
8 [5.97]
6 [4.47]
500 700 900 1100
250 PS
I [1723
.7] kPa
]
VISCOSITY - SSU [cSt]
600 RPM
800 RPM
1200 RPM
1500 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F35GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1000 RPM
.1 [.07]
.4 [.30]
1 [.75]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
2 [1.5]
.2 [.15]
.04 [.03]
4 [2.98]
8 [5.97]
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
30 [113.6]
10 [37.9]
80 [302.8]
SERIES: F50GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
14001300 1500
20 [75.7]
40 [151.4]
70 [265]
50 [189.3]
60 [227.1]
100 300 500 700 900 1100
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.4 [1.51]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
.1 [.38]
.2 [.78]
SERIES: F50
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F50GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.5
kPa]
200 PSI
[1379 k
Pa]
150 PSI [10
34.2 kPa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
14001300 1500
10 [7.46]
2 [1.49]
8 [5.97]
4 [2.98]
12 [8.95]
6 [4.47]
16 [11.93]
14 [10.44]
100 300 500 700 900 1100
300 PS
I [2068
.4 kPa
]
VISCOSITY - SSU [cSt]
600 RPM
800 RPM
1200 RPM
1500 RP
M
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F50GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1000 RPM
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
.1 [.07]
.2 [.15]
4 [2.98]
6 [4.47]
.4 [.3]
2 [1.5]
15 [11.19]
\RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
30 [113.6]
10 [37.9]
80 [302.8]
SERIES: F75GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
14001300 1500
20 [75.7]
40 [151.4]
70 [265]
50 [189.3]
60 [227.1]
100 300 500 700 900 1100
90 [340.7]
100 [378.5]
110 [416.4]
120 [454.2]
\VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.4 [1.51]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
25 [94.6]
.2 [.78]
SERIES: F75
\RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F75GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
250 PS
I [1723
.7 kPa
]
100 PSI [689.
5 kPa]
200 PS
I [1379 k
Pa]
150 PSI [
1034.2 kP
a]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
14001300 1500
10 [7.46]
2 [1.49]
8 [5.97]
4 [2.98]
12 [8.95]
6 [4.47]
16 [11.93]
14 [10.44]
100 300 500 700 900 1100
18 [13.42]
20 [14.91]
300 P
SI [20
68.4
kPa]
\VISCOSITY - SSU [cSt]
600 RPM
800 RPM
1200 RPM
1500 RP
M
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F75GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1000 RPM
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
10 [7.5]
.2 [.15]
4 [2.98]
6 [4.47]
.4 [.3]
2 [1.5]
20 [14.9]
30 [22.4]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 12006000 [0]
80 [302.8]
SERIES: F100GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
14001300 1500
20 [75.7]
40 [151.4]
180 [681.4]
60 [227.1]
100 300 500 700 900 1100
140 [530]
100 [378.5]
160 [605.7]
120 [454.2]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.4 [1.51]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
30 [113.6]
.2 [.78]
SERIES: F100
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F100GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 12006000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.5
kPa]
200 PSI
[1379 k
Pa]
150 PSI [1
034.2 kPa
]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
14001300 1500
10 [7.46]
2 [1.49]
8 [5.97]
4 [2.98]
12 [8.95]
6 [4.47]
16 [11.93]
14 [10.44]
100 300 500 700 900 1100
18 [13.42]
20 [14.91]
22 [16.41]
24 [17.9]
26 [19.39]
28 [20.88]
30 [22.37]
32 [23.86]
300 PS
I [2068
.4 kPa
]
VISCOSITY - SSU [cSt]
600 RPM
800 RPM
1200 RPM
1500 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F100GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
1000 RPM
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
10 [7.5]
.2 [.15]
4 [2.98]
6 [4.47]
.4 [.3]
2 [1.5]
20 [14.9]
40 [29.8]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 600
0 [0]
80 [302.8]
SERIES: F150GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
20 [75.7]
40 [151.4]
180 [681.4]
60 [227.1]
100 300 500 700 900
140 [530]
100 [378.5]
160 [605.7]
120 [454.2]
200 [757.1]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.5 [1.9]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
50 [189.3]
6 [22.7]
SERIES: F150
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F150GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 6000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.5
kPa]
200 PSI
[1379 k
Pa]
150 PSI [10
34.2 kPa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
8 [5.97]
4 [2.98]
12 [8.95]
16 [11.93]
100 300 500 700 900
20 [14.91]
24 [17.9]
40 [29.83]
28 [20.88]
36 [26.85]
32 [23.86]
300 PS
I [2068
.4 kPa
]
VISCOSITY - SSU [cSt]
400 RPM
600 RPM
800 RPM9
00 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F150GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
700 RPM
1000 RPM
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
10 [7.5]
.2 [.15]
4 [2.98]
6 [4.47]
.4 [.3]
2 [1.5]
20 [14.9]
40 [29.8]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 1000400 600
0 [0]
80 [302.8]
SERIES: F200GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
20 [75.7]
40 [151.4]
180 [681.4]
60 [227.1]
100 300 500 700 900
140 [530]
100 [378.5]
160 [605.7]
120 [454.2]
200 [757.1]
220 [832.8]
240 [908.5]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
.6 [2.27]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
40 [151.4]
6 [22.7]
60 [227.1]
SERIES: F200
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F200GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 1000200 800400 6000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.5
kPa]
200 PSI
[1379 k
Pa]
150 PSI [10
34.2 kPa]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]8 [5.97]
4 [2.98]
12 [8.95]
16 [11.93]
100 300 500 700 900
20 [14.91]
24 [17.9]
40 [29.83]
28 [20.88]
36 [26.85]
32 [23.86]
44 [32.81]
48 [35.8]
300 PS
I [2068
.4 kPa
]
VISCOSITY - SSU [cSt]
400 RPM
600 RPM
800 RPM9
00 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F200GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
700 RPM
1000 RPM
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
10 [7.5]
.2 [.15]
4 [2.98]
6 [4.47]
.4 [.3]
2 [1.5]
20 [14.9]
40 [29.8]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
RPM
D
I
S
C
H
A
R
G
E
-
G
P
M
[
l
/
m
i
n
]
0 800200 400 6000 [0]
150 [567.8]
SERIES: F300GRAPH 1
THEORETICAL GPMACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
50 [189.3]
350 [1324.9]
100 300 500 700 900
250 [946.4]
100 [378.5]
300 [1135.6]
200 [757.1]
400 [1514.2]
450 [1703.4]
VISCOSITY - SSU [cSt]
S
L
I
P
-
G
P
M
[
l
/
m
i
n
]
GRAPH 2SLIP
ACTUAL DELIVERY IN GPM [l/min] = GRAPH 1 + GRAPH 2
D
I
S
C
H
A
R
G
E
P
R
E
S
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
300 PSI [2068.4 kPa]
200 PSI [1379 kPa]
100 PSI [689.5 kPa]50 PSI [344.7 kPa]
250 PSI [1723.7 kPa]
100 [378.5]
3
0
[
.
2
8
]
1
0
0
[
2
0
.
7
]
2
0
0
[
4
3
.
3
]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
20 [75.7]
150 PSI [1034.2 kPa]
1 [3.8]
2 [7.57]
4 [15.1]
10 [37.9]
40 [151.4]
6 [22.7]
60 [227.1]
SERIES: F300
RPM
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
SERIES: F300GRAPH 3
INPUT HORSEPOWER
I
N
P
U
T
H
O
R
S
E
P
O
W
E
R
[
k
W
]
0 200 800400 6000 [0]
250 PS
I [1723
.7 kPa]
100 PSI [689.
5 kPa]
200 PS
I [1379 k
Pa]
150 PSI [1
034.2 kPa
]
D
I
S
C
H
A
R
G
E
P
R
E
S
U
R
E
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
50 PSI [344.7 kPa]
20 [14.91]
10 [7.46]
30 [22.37]
40 [29.83]
100 300 500 700 900
50 [27.29]
60 [44.74]
70 [52.2]
80 [59.66]
300 P
SI [20
68.4
kPa]
VISCOSITY - SSU [cSt]
400 RP
M
600 RP
M
800 RPM
900 RPM
V
I
S
C
O
U
S
H
P
[
k
W
]
SERIES: F300GRAPH 4
TOTAL INPUT HORSEPOWER [kW] = GRAPH 3 + GRAPH 4
R
P
M
S
H
O
W
N
O
N
D
I
A
G
O
N
A
L
L
I
N
E
S
VISCOUS HORSEPOWER
2
0
0
[
4
3
.
3
]
1
0
0
[
2
0
.
7
]
3
0
[
.
2
8
]
4
0
[
4
.
2
]
6
0
[
1
0
.
3
]
8
0
[
1
5
.
5
]
700 RP
M
1 [.75]
8
0
0
[
1
7
5
.
8
]
1
0
0
0
[
2
2
0
]
2
0
0
0
[
4
4
0
]
4
0
0
0
[
8
8
0
]
6
0
0
0
[
1
3
2
0
]
8
0
0
0
[
1
7
6
0
]
1
0
0
0
0
[
2
2
0
0
]
10 [7.5]
.7 [.52]
4 [2.98]
6 [4.47]
70 [52.2]
2 [1.5]
20 [14.9]
40 [29.8]
4
0
0
[
8
7
.
7
]
6
0
0
[
1
3
1
.
8
]