Water is pumped though the system bellow using a 6 hp pump. Pipe 1 is from exit Q1 to point b and pipe 2 is from exit Q2 to point b. The pipe cross-section area A1 = 0.03 ft2, pipe cross section area A2 = 0.04 ft2; and gauge pressure pl = 15 psig, p2 = 10 psig. The diameter for the pipe exiting the pump, pipe b , is Db = 8.0 in. The entrance in the vertical pipe of DA = 4in, point a, is 7 ft below surface and has a gauge pressure reading of 2 psi. Assume the flow in the pipes is incompressible and frictionless. Solve for the Total reaction force [N] at junction b. %3D

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Water is pumped though the system bellow using a 6 hp pump. Pipe
1 is from exit Q1l to point b and pipe 2 is from exit Q2 to point b. The
pipe cross-section area A1 = 0.03 ft2, pipe cross section area A2 =
0.04 ft2; and gauge pressure p1 = 15 psig, p2 = 10 psig. The diameter
for the pipe exiting the pump, pipe b, is Db = 8.0 in. The entrance in
the vertical pipe of DA = 4in, point a, is 7 ft below surface and has a
gauge pressure reading of 2 psi. Assume the flow in the pipes is
incompressible and frictionless. Solve for the Total reaction force [N]
at junction b.
A,, P1
Q,
Q,
A,, P2
15 ft
25 ft
Pump
Not to scale
Transcribed Image Text:Water is pumped though the system bellow using a 6 hp pump. Pipe 1 is from exit Q1l to point b and pipe 2 is from exit Q2 to point b. The pipe cross-section area A1 = 0.03 ft2, pipe cross section area A2 = 0.04 ft2; and gauge pressure p1 = 15 psig, p2 = 10 psig. The diameter for the pipe exiting the pump, pipe b, is Db = 8.0 in. The entrance in the vertical pipe of DA = 4in, point a, is 7 ft below surface and has a gauge pressure reading of 2 psi. Assume the flow in the pipes is incompressible and frictionless. Solve for the Total reaction force [N] at junction b. A,, P1 Q, Q, A,, P2 15 ft 25 ft Pump Not to scale
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