Please answer Quickly and label all answers For the system shown in Fig. the average velocity in the pipe is 10 m/s. Up to point A, K = 1.2, from B to C, K = 6.5, andthe pump is 80% efficient. If pc = 170 kPa find PA and PB and the power required by the pump.WaterOO30 mSolution:Energy analysis between different locations: (use the centerline of the lowest pipe as datum)1. To determine the power required by the pump, we can use the energy from0 Z₁ = 10 m;10 cm dia.0P₁3/20O2go Z2 =112/1 32/20=323o h₁ =10 mm;m;m;m;m;Devicem;o Hence pump head Hp =o Power required by the pump Wp =m;kW.towhere o Power required by the pump W2. Determine the pressure at A: we can use the energy fromo ZOOO5+PioY1111o Z2 =5/811U28||m;m;m;m;m;h₁ =• Hence pressure head at A: PAo Finally, PA =3. Similarly, work for location B, find that PB =m;=kPa.KkW.m;kPa.◆ to♦where

Given Data: Average Velocity of pipe V=10 m/sksurface-A=1.2kB-C=6.5Pump Efficiency ηp=80%=0.8pc=170…

For the system shown in Fig. the average velocity in the pipe is 10 m/s. Up to point A, K = 1.2, from B to C, K = 6.5, and the pump is 80% efficient. If pc = 170 kPa find pA and pe and the power required by the pump.

For the system shown in Fig. the average velocity in the pipe is 10 m/s. Up to point A, K = 1.2, from B to C, K = 6.5, and the pump is 80% efficient. If pc = 170 kPa find pA and pe and the power required by the pump.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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