Water is pumped between two reservoirs in a pipeline with the following characteristics; (d=275mm, L= 50m, = 0.02, minor loss is neglected. The pump performance curve is approximated by the equation: H,=21.5-6507 Where H, is in meters and Q is in m/s. Determine the discharge O and pump head /7 when two pumps in series are used for total static head (4Z=25m). Water is pumped between two reservoirs in a pipeline with the followingcharacteristics; (d= 275mm, L= 50m, f= 0.02, minor loss is neglected. Thepump performance curve is approximated by the equation:H,=21.5-65Q?Where H, is in meters and Q is in m/s.Determine the discharge Q and pump head H when two pumps in seriesare used for total static head (AZ=25m).

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Answered: Water is pumped between two reservoirs…

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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Water flows inside a solid cylindrical pipe, which narrows as it goes up to a height h (see diagram below). The lower horizontal section has circular cross-sectional diameter d, whereas the upper horizontal section has diameter d/2. Let us denote A to be a point at the lower horizontal section and B to be a point at the upper horizontal section. The flow speed at A and B is uд and u, respectively. The pressure at A and B is PA and PB, respectively. РА UA Oom Ja d d/21 1 UB h (a) Assuming water to be incompressible, show that the flow speed at B is four times the flow speed at A. (b) Use Bernoulli's equation to find the drop in the water pressure from A to B. Express the result in terms of h, uд, the density of water p, and the acceleration of gravity g. (c) Above certain critical height h, vapour bubbles start to appear at the top horizontal section, which hinders water flow through the pipe. Explain why this happens.
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Water at 25°C is pumped at 1800 gal/min from the lower to upper reservoir, as shown in Figure below (Zı = 30 ft and z2 = 180 ft). Pipe friction losses are approximated by hf = 35V/2g, where V is the average velocity in the pipe. The pump is 80% efficient. (a) Find the head loss due to friction, hẹ in ft. in horse power (b) Compute the pump head, h, in ft and the pump power needed, Ppump (hp). Given: Specific weight of water, ywater = 62.4 lb/ft'; 1 ft/s = 448.8 gal/min. Show all calculations. Z2 = 180 ft Z¡ = 30 ft D= 6 in Pump

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