Looking for the calculations / unit analysis for ...1.) Inlet Potential Energy2.) Outlet Potential Energy3.) Pump Energy (Ep)4.) Friction Loss in (1" dia pipe) Thanks Water is pumped at a rate of 60 GPM through a 2inch diameter pipe at an elevation of 100 ft and apressure of 15 psig. The flow dischargesthrough a 1 inch diameter commerical steel pipeat 800 psig and at an elevation of 500 ft. Thelocal g is 28 ft/sec^2. The total length of 1'" pipeis 1000 Ft. The flow in 1" pipe also passes500FTthrough (2) standard 90 degree elbows (K valueof .42). Assume no friction loss for the 2" pipeand that the pump is 75% efficient.g=28· F7/secPez60GPM800100PTPs16Inlet Velocity6.13Ft/SectWATER24.5Discharge VelocityFt/SecPUMP75%EFFICCUNTPS16Pump Horsepower_32.92НР8.33Time to Fill 500 Gal ContainerMin0.671Inlet Kinetic EnergyFt-Lbf/Lbm10.72Outlet Kinetic EnergyFt-Lbf/LbmInlet Flow Energy135.286Ft-Lbf/Lbm2356.87Outlet Flow EnergyFt-Lbf/LbmCALCULATE THE FOLLOWING...1.) Inlet Potential Energy_Ft-Lbf/Lbm2.) Outlet Potential Energy_Ft-Lbf/Lbm3.) Pump Energy (Ep)_Ft-Lbf/Lbm4.) Friction Loss (1"Dia pipe)Ft-Lbf/Lbm

Given that, Rate of water, Q=60 GPM,Diameter of water, D=2 in,Elevation of pipe, h=100 ft,Pressure…

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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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The rate of flow of water through a horizontal pipe is 200+last two digits of your id lit/s. Thearea of the pipe suddenly enlarges from 300 cm2to 1200 cm2. The pressure intensity in thesmaller pipe is 10+last digit of your id N/cm2. Determine:a) Loss of head due to sudden enlargementb) Pressure intensity in the larger pipec) Power lost due to enlargement Explain with clear writing and units and diagram Also if you use tables and equation mention it with explanation

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Looking for the calculations / unit analysis for ... 1.) Inlet Potential Energy 2.) Outlet Potential Energy 3.) Pump Energy (Ep) 4.) Friction Loss in (1" dia pipe)