Q2. The turbine shown in figure 2 develops 3000 kW when the water flowrate is 24 m /s. The head loss across the turbine from section 1 to section 2 is negligible, but the head loss for entire flow is 2.9m. Determine: a. The pressure difference across the turbine, P1- P2, across the turbine. b. The elevation h P1- 60 psi O - 150 ft3/s Di - 3 t Section (1). Turbine Figure 2 10 ft P2 - 10 in. Hg vacuum D2 - 4 ft Section (2) Page 1 of 2
Q2. The turbine shown in figure 2 develops 3000 kW when the water flowrate is 24 m /s. The head loss across the turbine from section 1 to section 2 is negligible, but the head loss for entire flow is 2.9m. Determine: a. The pressure difference across the turbine, P1- P2, across the turbine. b. The elevation h P1- 60 psi O - 150 ft3/s Di - 3 t Section (1). Turbine Figure 2 10 ft P2 - 10 in. Hg vacuum D2 - 4 ft Section (2) Page 1 of 2
Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![Q2. The turbine shown in figure 2 develops 3000 kW when the water flowrate
is 24 m /s. The head loss across the turbine from section 1 to section 2 is
negligible, but the head loss for entire flow is 2.9m. Determine:
a. The pressure difference across the turbine, P1- P2, across the turbine.
b. The elevation h
60 psi
P1
O - 150 ft/s
Di- 3 ft
Section (1).
Turbine
Figure 2
10 ft
P2 - 10 in. Hg
vacuum
D2 - 4 ft
Section (2)
Page 1 of 2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F852451c2-9204-404e-b0d0-9f1aaedf7fd0%2Fb9062326-909d-4d16-a79d-02c329f16b12%2Fonx72s_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q2. The turbine shown in figure 2 develops 3000 kW when the water flowrate
is 24 m /s. The head loss across the turbine from section 1 to section 2 is
negligible, but the head loss for entire flow is 2.9m. Determine:
a. The pressure difference across the turbine, P1- P2, across the turbine.
b. The elevation h
60 psi
P1
O - 150 ft/s
Di- 3 ft
Section (1).
Turbine
Figure 2
10 ft
P2 - 10 in. Hg
vacuum
D2 - 4 ft
Section (2)
Page 1 of 2
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