In the gasoline transfer facility the storage tank to the consumption tank, you want to install a pump to circulate a flow rate of 40. The 400m long pipe is cast iron 150mm in diameter and consists of a check valve, a gate valve and 2 commercial medium radius elbows. The Kg consumption tank is pressurized to 2.5 pressure cm gauge. Determine the power Additional data, pressure drop factors: pump drive in KW if the pump performance is 68%. . Check valve X = 1.8 • Open gate valve K, = 0.25 • Medium radius commercial elbow K = 0.75, for each elbow Outlet storage pond angles alive k, = 0.5 • Entrance to the consumption tank K₂ = 1 • Friction factor in pipes / = 0.02
In the gasoline transfer facility the storage tank to the consumption tank, you want to install a pump to circulate a flow rate of 40. The 400m long pipe is cast iron 150mm in diameter and consists of a check valve, a gate valve and 2 commercial medium radius elbows. The Kg consumption tank is pressurized to 2.5 pressure cm gauge. Determine the power Additional data, pressure drop factors: pump drive in KW if the pump performance is 68%. . Check valve X = 1.8 • Open gate valve K, = 0.25 • Medium radius commercial elbow K = 0.75, for each elbow Outlet storage pond angles alive k, = 0.5 • Entrance to the consumption tank K₂ = 1 • Friction factor in pipes / = 0.02
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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Question
2. In the gasoline transfer facility the storage tank to the consumption tank, you want to install
a pump to circulate a flow rate of 40. The
400m long pipe is cast iron 150mm in diameter and consists of a check valve, a gate valve and 2 commercial medium radius elbows. The Kg consumption tank is pressurized to 2.5 pressure
cm
gauge. Determine the power
Additional data, pressure drop factors:
pump drive in KW if the pump performance is 68%.
. Check valve X = 1.8
• Open gate valve K, = 0.25 • Medium radius commercial elbow K = 0.75, for
each elbow
Outlet storage pond angles
alive k, = 0.5
• Entrance to the consumption tank K₂ = 1
• Friction factor in pipes / = 0.025
Transcribed Image Text:K, = 0,5
• Entrada
a
estanque
de
consumo K=1
• Factor de fricción en tuberías
1 = 0,025
manómetro
Entrada depósito
V.Retención
Compuerta
Bomba
Salida deposito
angulos vivos
II
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