Water flows from a lake through a 500-m-long pipehaving a diameter of 300 mm and a friction factor off = 0.025. The flow from the pipe passes through a60-mm-diameter nozzle and is used to drive the Peltonwheel, where the bucket deflection angles are 165°.Neglect minor losses. (Figure 1)Figure20 mBDetermine the power produced when the wheel is turning under optimum conditions.Express your answer to three significant figures and include the appropriate units.μεwValueUnitsSubmitRequest Answer1 of 1Part Bm?Determine torque produced when the wheel is turning under optimum conditions.Express your answer to three significant figures and include the appropriate units.☐μάT =ValueSubmitRequest AnswerUnits

Answered: Water flows from a lake through 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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1. The velocity of water is 8 m/s and the pressure is 140 kPa on the discharge side of a pump. a. What is the head of the pump if the velocity is 4 m/s and the pressure is 90 kPa on the suction side of the pump? b. How much power is required to drive it if the diameter of the suction side is 600 mm? c. If the pump is rated at 120 hp, what is the efficiency of the pump neglecting energy losses in the system? Pj=90 kPa P>=140 kPa Vj=4m/s ♡ Vz=8m/s Suction side Discharge side 600 mum
A pump with an 8-in diameter impeller is operating at 1750 rpm and delivering 40 gpm with a total dynamic head of 55 ft. The pump's brake horsepower (BHP) is 1.2 hp under these conditions. Assume constant efficiency. Show your solutions a. Approximate the pump's capacity if impeller size is increased to 10 in. b. Approximate the pump's capacity if pump speed is increased to 3450 rpm. c. Approximate the pump's total dynamic head if impeller size is increased to 10 in. d. Approximate the pump's total dynamic if pump speed is increased to 3450 rpm. e. Approximate BHP if impeller size is increased to 10 in. f. Approximate BHP if pump speed is increased to 3450 rpm.
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A turbine system is harnessing the energy of flowing water from reservoir 1 to reservoir 2. The difference in elevation between the two reservoirs is 120ft. For a design flowrate of 50ft^3/s, the head loss is 30ft. Solve the efficiency of the turbine if the actual energy extracted is 100hp. Neglect the difference in atmospheric pressure between the reservoirs. The choices are there. Pls show complete solution. we only accept 4 decimal places and refeer to 9.807 m/s^2 instead of 9.81. thank you
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