2. A 300 mm welded pipe 1560 m long conducts water from a reservoir to a nozzle, the jet from which drives a turbine. The water surface in the reservoir is at elevation 135 m. The pipe leaves the reservoir is at elevation 130 m running thence 150 m on level grade to the nozzle. The nozzle has a tip diameter of 75 mm with C = Cv = 0.96. Determine the discharge and the horsepower in the jet (nozzle). use f = 0.02. Use Headloss in the pipe hf = fLV²/D2g or 0.0826LQ²/D5 Answer E₁ = Enozzle Q = 0.186 m³/s HP = 221.24 hp V EL 135 m 360 m 300 mm dia EL 130 m 2 1050 m 150 m nozzle 75 mm dia
2. A 300 mm welded pipe 1560 m long conducts water from a reservoir to a nozzle, the jet from which drives a turbine. The water surface in the reservoir is at elevation 135 m. The pipe leaves the reservoir is at elevation 130 m running thence 150 m on level grade to the nozzle. The nozzle has a tip diameter of 75 mm with C = Cv = 0.96. Determine the discharge and the horsepower in the jet (nozzle). use f = 0.02. Use Headloss in the pipe hf = fLV²/D2g or 0.0826LQ²/D5 Answer E₁ = Enozzle Q = 0.186 m³/s HP = 221.24 hp V EL 135 m 360 m 300 mm dia EL 130 m 2 1050 m 150 m nozzle 75 mm dia
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:2. A 300 mm welded pipe 1560 m long conducts water from a reservoir to a nozzle, the jet from
which drives a turbine. The water surface in the reservoir is at elevation 135 m. The pipe leaves the
reservoir is at elevation 130 m running thence 150 m on level grade to the nozzle. The nozzle has a
tip diameter of 75 mm with C = Cv = 0.96. Determine the discharge and the horsepower in the jet
(nozzle). use f = 0.02. Use Headloss in the pipe hf = fLV2/D2g or 0.0826LQ²/D5
Answer
E₁
= Enozzle
Q = 0.186 m³/s
HP = 221.24 hp
EL 135 m
360 m
300 mm dia
EL 130 m
2
1050 m
150 m
nozzle
75 mm dia
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