Water flows in a branched pipe as shown in Figure QS below. The water flows from Pipe Awith a 165 mm diameter dividing into two smaller pipelines, Pipe D with a 97 mm diameterand Pipe B with an 81 mm diameter. The velocity in the 82 mm pipe (B) is 0.5 m/s and in the97 mm pipe (D) is 0.43 m/s.Figure Q8Calculate the velocity in m/s and the mass flow rate in kg/s in the 165 mm pipe (A) if thedensity of the water is 1000 kg/m³. Enter your answers to three significant figures.Velocity: m/s.Mass Flow Rate: kg s-1.

Answered: Image /qna-images/answer/d4f88500-ead2-4863-83c6-9354299732d6.jpg

Answered: Water flows in a branched pipe as shown…

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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An inflow to a turbine with a discharge of 20 m³/s leads to a ration speed of 150 rpm. The blades inlet edges have an angle of 120° to the direction of whirl. The outer diameter of the runner is 1.5 m and the runner inlet width is 1.0 m. 5. (a) To plot the velocity triangle at the blade outlet edge. (b) Assume design operating conditions and no velocity of whirl at outlet, calculate the power delivered by the runner. (c) The elevation difference between the head race and the tail race is 23 m and the head available to the turbine is 20 m, what is the hydraulic efficiency of the turbine and overall efficiency? (d) If a model of 1/10 full scale is constructed to operate under a head of 10 m, what must be its speed, power, water consumption and overall efficiency to run under the similar conditions to the prototype?
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Water is being pumped the through one inch diameter piping arrangement to a higher elevation (5 meters up). Assume incompressible fluid conditions and some heat losses to the surroundings. At the inlet water pressure is 1 bar, temperature 15C, and volumetric flow rate is 0.02 m3/s. At the exit pressure is 2.2 bar, temperature is 10C and velocity of the stream is 40 m/s. Determine: a.Density of the inlet stream using NIST tables. b.Mass flow rate [kg/s] c.Determine h2 from known p2 and T2 using NIST tables d.Find heat rate removed from Q=m(h1-h2) Use Energy Balance Equation with enthalpy difference and in the units of kW to find pumping power in kW. NOTE: The heat is removed from the system, so it should be negative in your equation! show all steps please

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