ask step 3 Pump300 mImWaterElevation = 40 m-Elevation = 20 m-Elevation = 10 m300 m-4. Assume that the head loss in the pipe is given byhL = 0.014(L/D) (V2/2g), where L is the length of pipeand3. A waterdischarge of 10 m3/s is to flow through thishorizontal pipe, which is 1 m in diameter. If thehead loss is given as 7V2/2g (V is velocity in thepipe), how much power will have to be supplied tothe flow by the pump to produce this discharge?Elevation 100 mL = 100 mD = 60 cmWaterT= 10°CD is the pipe diameter.a. Determine the discharge of water through thissystem.b. Draw the HGL and the EGL for the system.c. Locate the point of maximum pressure.d. Locate the point of minimum pressure.e. Calculate the maximum and minimum pressures in the system.Elevation = 95 mElevation 100 mL = 400 mD = 60 cmElevation=30 mNozzle30 cm-diameter jet

300 m- Pump 1m 300 m- Water Elevation = 40 m -Elevation = 20 m -Elevation 10 m 3. A water discharge of 10 m3/s is to flow through this horizontal pipe, which is 1 m in diameter. If the head loss is given as 7V2/2g (V is velocity in the pipe), how much power will have to be supplied to the flow by the pump to produce this discharge?

300 m- Pump 1m 300 m- Water Elevation = 40 m -Elevation = 20 m -Elevation 10 m 3. A water discharge of 10 m3/s is to flow through this horizontal pipe, which is 1 m in diameter. If the head loss is given as 7V2/2g (V is velocity in the pipe), how much power will have to be supplied to the flow by the pump to produce this discharge?

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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