Water flowing in a pipe with a velocity of 28 m/s and a static gage pressure of 970 kPa is split into two branches by a horizont as indicated in the figure below. Using the measured pressures, velocities, and areas indicated on the figure, determine the ra available energy loss (i.e., available power lost) in the lateral. A₁ = 0.4 m² Section (2) Section (1) Section (3). A2 = 0.28 m² P2 = 1140 kPa

Water flowing in a pipe with a velocity of 28 m/s and a static gage pressure of 970 kPa is split into two branches by a horizont as indicated in the figure below. Using the measured pressures, velocities, and areas indicated on the figure, determine the ra available energy loss (i.e., available power lost) in the lateral. A₁ = 0.4 m² Section (2) Section (1) Section (3). A2 = 0.28 m² P2 = 1140 kPa

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Question

Water flowing in a pipe with a velocity of 28 m/s and a static gage pressure of 970 kPa is split into two branches by a horizontal lateral
as indicated in the figure below. Using the measured pressures, velocities, and areas indicated on the figure, determine the rate of
available energy loss (i.e., available power lost) in the lateral.
2F
A₁ = 0.4 m²
loss rate=
i
Section (2)
Section (1)
Section (3)
MW
A2 = 0.28 m²
P2 = 1140 kPa
3
A3 = 0.18 m²
P3 = 570 kPa
V3 = 30 m/s

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Step 1: Given

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Step 2: Calculation of velocity at section 2 and mass flow rate at 1,2 and 3 section

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Step 3: Calculation of available energy loss

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ISBN:

9780190698614

Author:

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Publisher:

Oxford University Press