For the fluid power system shown in Fig, determine the external load F that a hydraulic cylinder can sustain while moving in an extending direction. Take frictional pressure losses into account. The pump produces a pressure increase of 8.5 MPa from the inlet port to the discharge port and a flow rate of 0.0033 m3/s. The following data are applicable. * (Elbow) K =0.75 (Gte valve K-7 9 10 11 K-5 EXI 12 Strainer K=10

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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For the fluid power system shown in
Fig, determine the external load F that
a hydraulic cylinder can sustain while
moving in an extending direction. Take
frictional pressure losses into account.
The pump produces a pressure
increase of 8.5 MPa from the inlet port
to the discharge port and a flow rate of
0.0033 m3/s. The following data are
applicable. *
(Elbow) K =0.75
(Gate valve K-
11
K-5
6
12
Strainer K=10
Pipe No.
1
Diameter -m Length -m
0.0381
2.5
0.0254
5
Kinematic viscosity
0.0000930 m/s
7840 N/m'
3,4
0.0254
1
Weight density of oil
Cylinder piston diameter
Cylinder rod diameter
0.0254
10
0.203 m
6.
0.0254
5
7,8
9.
0.102 m
0.0254
3
0.019
10
0.019
3
11
0.019
2.5
12
0.019
6
Transcribed Image Text:For the fluid power system shown in Fig, determine the external load F that a hydraulic cylinder can sustain while moving in an extending direction. Take frictional pressure losses into account. The pump produces a pressure increase of 8.5 MPa from the inlet port to the discharge port and a flow rate of 0.0033 m3/s. The following data are applicable. * (Elbow) K =0.75 (Gate valve K- 11 K-5 6 12 Strainer K=10 Pipe No. 1 Diameter -m Length -m 0.0381 2.5 0.0254 5 Kinematic viscosity 0.0000930 m/s 7840 N/m' 3,4 0.0254 1 Weight density of oil Cylinder piston diameter Cylinder rod diameter 0.0254 10 0.203 m 6. 0.0254 5 7,8 9. 0.102 m 0.0254 3 0.019 10 0.019 3 11 0.019 2.5 12 0.019 6
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