Water at 20°C flows with a steady mean velocity of 2.0 m/s through a $100mm pipe that slopes upward at 30° to the horizontal. At point 1, the pressure is 600 kPa, and at point 2, located 25 m further along the pipe, the pressure is 460 kPa. Determine the head loss to friction, the friction factor f, and the relative roughness e/D.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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4.11) Water at 20°C flows with a steady mean velocity of 2.0 m/s through a $100mm pipe
that slopes upward at 30° to the horizontal. At point 1, the pressure is 600 kPa, and
at point 2, located 25 m further along the pipe, the pressure is 460 kPa. Determine
the head loss to friction, the friction factor f, and the relative roughness e/D.
Transcribed Image Text:4.11) Water at 20°C flows with a steady mean velocity of 2.0 m/s through a $100mm pipe that slopes upward at 30° to the horizontal. At point 1, the pressure is 600 kPa, and at point 2, located 25 m further along the pipe, the pressure is 460 kPa. Determine the head loss to friction, the friction factor f, and the relative roughness e/D.
1
25m
P₁=600kPa
V₁=2.0m/s
-30°
2
-Ø100mm
P₂=460kPa
Transcribed Image Text:1 25m P₁=600kPa V₁=2.0m/s -30° 2 -Ø100mm P₂=460kPa
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Im confused wether the formula will work differently. Here is the formula for reference.

pg
+
2
V₁
2g
+ Z₁ =
2
P₂ V2
pg
2g
+22
(4.8)
Equation 4.8 is known as Bernoulli's equation. In this text we will normally use the more
general equation 4.7.
Transcribed Image Text:pg + 2 V₁ 2g + Z₁ = 2 P₂ V2 pg 2g +22 (4.8) Equation 4.8 is known as Bernoulli's equation. In this text we will normally use the more general equation 4.7.
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