HAH 5.6.1. The following table provides the results of a pump performance test. Discharge (gpm) Pump head (ft) 200 400 145 135 600 800 1,000 90 50 120 0 150 a. Plot the pump characteristic (performance) curve Plot the characteristic curve for two pumps in series C. Plot the characteristic curve for two pumps in parallel b. d. What pump configuration would work for required flow of 1,700 gpm which must overcome a head of 80 ft? e. What pump configuration would work for required flow of 1,700 gpm which must overcome a head of 160 ft?

HAH 5.6.1. The following table provides the results of a pump performance test. Discharge (gpm) Pump head (ft) 200 400 145 135 600 800 1,000 90 50 120 0 150 a. Plot the pump characteristic (performance) curve Plot the characteristic curve for two pumps in series C. Plot the characteristic curve for two pumps in parallel b. d. What pump configuration would work for required flow of 1,700 gpm which must overcome a head of 80 ft? e. What pump configuration would work for required flow of 1,700 gpm which must overcome a head of 160 ft?

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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A wind turbine is located in a site with average wind speed is 9 m/sec, with rotor diameter of 30 m and the air density 1.23 Kg/cubic meter .After one year of operation, the total wind yield energy supplied to the grid is 600 GWh, if the turbine maximum power is 350 MW. For a power system coefficient equals 0.4, Calculate: a) The available wind power
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7) A pump has the following characteristic: Volume flow rate 23 46 69 92 115 (m³/h) Head (m) 17 16 13.5 10.5 6.6 The is used to pump water from a lower tank to a higher tank through a total length of pump 800 m of 150 mm diameter pipe. The difference between the water levels in the two tanks is 8m. Neglecting all losses except friction and assuming that C; = 0.004, find the rate of flow between the two reservoirs. [Ans: = 60m/hr]
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.com/c/Mjc5MTg3Nj12NzEz/a/M]950TUXNTUWMTE2/details Problem 3: A large pressurized tank filled with air discharges into the atmosphere. The flow path is a short and frictionless smooth pipe connected to a discharge nozzle. Find a) the flow rate of air and b) pressure in the pipe for the given data. Ignore all frictional losses, including head losses at the entrance to the pipe, at the bend, and at the nozzle. Prank (kPa): 110.0 Dpipe (m): 0.040 P (kPa): 101 atm Nozzle (m): 0.015 Tatm (C): 20 Air
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