A pipeline with a pump leads to a nozzle as shown. Find the flow rate whenpump develops an 80 ft (24.4 m) head. Assume head lost in the 6-inch (152mm) pipe to be five times its velocity head while the head lost in the 4-inch(102 mm) pipe to be twelve time its velocity head. (a) Compute the flow rate(b) sketch the energy grade line and hydraulic grade line, and (c) find thepressure head at the suction side.8 80 (24.4 m)3" jet(76.2 mm)8 70 (21.3 m)Line 26" (152 mm)El 30 (15.2 m)Line 1PUMP(ww zo1)

Velocity head=v22gHead loss in 152 mm pipe=5v122gHead loss in 102 mm pipe=12v222gHead developed by…

Answered: A pipeline with a pump leads to a…

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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The water flow of 35,000 Liters/min was developed into a booster station with a pump installed rated as follows: Pressure at Discharge side= 4.18 bars, 850mm above the pump C.L Suction Pressure= 220mmHg vacuum , 425mm below the pump C.L Pipe Dia @ suction=16 inches and Pipe Dia @ Discharge 12 ½ inches. 1. Draw the illustrative diagram 2. Calculate the Head at discharge, Velocity Head, Elevation Head and the Total Head of the Pump.
E10
Example 2: A flow of water from a closed reservoir with interior pressure of 50 kPa to a pipe of different diameters shown in figure below. Calculate 1) the discharge and velocity at each pipe, 2) the pressure in each pipe and 3) the .energy and hydraulic grade lines 50 kPa water 10 m D1-300mm D2-200mm D3=100mm D4-50mm (nozzel) 2m
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SUBJECT: HYDRAULICS FINALS ANSWERS MUST BE 3 DECIMALS AND BOX IT SHOW COMPLETE SOLUTION BADLY NEED IT ASAP EXPERTS. THANK YOU
A nozzle meter is another device used to determine the flow velocity and flow rate in pipe. The nozzle meter installed in a pipe shown in Figure 4 is horizontal. Derive the equation for the flow velocity and the flow rate in the pipe. (1) Nozzle P,V d2 Pipe Figure 4 Cs Scanned with CamScanner
Please answer, hydraulics. Thanks
Please answer and explain both questions in full detail
Water is pumped from a supply reservoir to a ductile- iron water-transmission line, as shown in Figure 2.26. The high point of the transmission line is at point A, 1 km downstream of the supply reservoir, and the low point of the transmission line is at point B, 1 km downstream of A. If the flow rate through the pipeline is 1 m3/s, the diameter of the pipe is 750 mm, and the pressure at A is to be 350 kPa, then: (a) estimate the head that must be added by the pump; (b) estimate the power supplied by the pump; and (c) calculate the water pressure at B. Supply reservoir Elev. 7 m Pump Elev. 10 m Transmission line Elev. 4 m- B Figure 2.26: Water pumped into a transmission line
Question 4 The Reynold's number for a fluid in a pipe of 25 cm diameter is 2000. Then the Reynold's number in a 15 cm diameter pipe forming an extension of the 25 cm flow pipe will be......... (round of to 2 decimal places) Take the flow as incompressible.
2.2 m/min The figure represents a simplified pipe 305 mm Infiow 1000 m 25 m /min network. Flows for the area have been disaggregated to the nodes, and a major fire flow has been added at node G. 25+ m/min The water enters the system at node A. 250 mm a.5 m/min 1100 m 8 200 mm 500 m Pipe diameters and lengths are shown on the 2.0 figure. 200 mm E 500 m 1.5 m /min Find the flow rate of water in each pipe using the Hazen-Williams equation with Crw F = 100. Carry out calculations until the 305 mm 1100 m G corrections are less then 0.2 m/min. 2.3m/min 14 m/min 305 mm 305 mm 1250 m w 0001 405 mm 1250 m 355 mm 355 w 009 w 00 ww 002 C w 00

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