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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Transcribed Image Text:HAH 5.6.1. The following table provides the results of a pump performance test.
Discharge (gpm)
Pump head (ft)
0
150
200
145
400
135
600
120
800
90
1,000
50
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?
What pump configuration would work for required flow of 1,700 gpm which must overcome a head of 160 ft?
e.
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