Situation 1 The 60 cm pipe conducts water from reservoir A to a pressure turbine which discharges through another 60 cm pipe into tailrace B. HEL. 70 m The head losses are: From A-1 : 5-29 From 2-B : 0.20- H60 cm If the discharge is 0.70 m3 /sec: HEL S 1. Determine the head extracted by the turbine (HE) in meters. DATUM 2. Solve for the input power of the turbine (Pinput or Pturbine) in kW. TURBINE 3. At 90% efficiency, compute for the output power (Poutput) for electricity in kW.
Situation 1 The 60 cm pipe conducts water from reservoir A to a pressure turbine which discharges through another 60 cm pipe into tailrace B. HEL. 70 m The head losses are: From A-1 : 5-29 From 2-B : 0.20- H60 cm If the discharge is 0.70 m3 /sec: HEL S 1. Determine the head extracted by the turbine (HE) in meters. DATUM 2. Solve for the input power of the turbine (Pinput or Pturbine) in kW. TURBINE 3. At 90% efficiency, compute for the output power (Poutput) for electricity in kW.
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:Situation 1
The 60 cm pipe conducts water from reservoir A to a pressure
turbine which discharges through another 60
EL. 70 m
cm pipe into
tailrace B.
The head losses are:
From A-1 :
From 2-B : 0.20
2g
H60 cm Ø
If the discharge is 0.70 m3 /sec:
HEL. 5m
1. Determine the head extracted by the turbine (HE) in meters.
DATUM
2. Solve for the input power of the turbine (Pinput or Pturbine) in kW.
TURBINE
3. At 90% efficiency, compute for the output power (Poutput) for electricity in kW.
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