4.5.4 The pressure at point 1 in the parallel pipe system shown in the figure below is 750 kPa. If theflow rate through the system is 0.50 m3/s, what is the pressure at point 2? Neglect minor losses. All thepipes are steel with roughness value of 0.046 mm. Also, determine the fraction of the flow in each of theparallel pipes and check your solution. Take the Kinematic viscosity, v = 1.141 x 10^6 m2 /s.300 mm dia1.600 m, 240 mm diaA450 m, 200 mm diaBC720 m, 220 mm diaD200 m, 300 mm dia2.

To Find :The fraction of the flow in each of the parallel pipes.Given : The pressure at point 1 in…

Answered: 4.5.4 The pressure at point 1 in the…

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 diameter of a pipe changes gradually from 75 mm at a point A, 6 m above datum, to 150 mm at B, 3 m above datum. The pressure at A is 103 kPa and the velocity of flow is 3.6 m/s. Neglecting losses, with the aid of a neat sketch, determine the pressure at B
Water is stored in a tank sketched in the figure below to support the demand of a nearby community area.The system is designed so that pressure at the location B always lies in the range of 330 to 440 kPa (gauge).Water demand fluctuates between 0.3 and 1 m3/s regardless of pressure at B. The supply pipe of 600 mmdiameter and 1 km length between A and B is made of steel and has the equivalent sand roughness of 1 mm.Although not shown in the figure, the supply pipe has five 90◦ bends, each having the head loss coefficientof 0.8. The figure shows that the bottom end of the tank is located 42 m above the ground, and the pipe isburied 1.5 m below the ground. A pump system regulates so that the tank keeps the same water level all thetime. Assume water at 20◦C, and air in the storage tank has the atmospheric pressure. To meet the designcriterion for pressure at B, what should be the depth of water h in the storage tank?
Parvinbhai

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