A 140 m long pipeline runs between two reservoirs, both ends being under water, and the intake end is square-edged and non-projecting. The difference between the water levels in the two reservoirs is 40m. a) What is the discharge if the pipe diameter is 20 cm and f = 0.007? The density of water may be taken as 1000 kg/m³. b) When this same pipe is old, assume that corrosion reduces the diameter to 18 cm and that f becomes 0.012. What will the rate of discharge be then?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A 140 m long pipeline runs between two reservoirs,
both ends being under water, and the intake end is
square-edged and non-projecting. The difference
between the water levels in the two reservoirs is 40m.
a) What is the discharge if the pipe diameter is 20 cm
and f = 0.007? The density of water may be taken
as 1000 kg/m³.
b) When this same pipe is old, assume that corrosion
reduces the diameter to 18 cm and that f becomes
0.012. What will the rate of discharge be then?
Transcribed Image Text:A 140 m long pipeline runs between two reservoirs, both ends being under water, and the intake end is square-edged and non-projecting. The difference between the water levels in the two reservoirs is 40m. a) What is the discharge if the pipe diameter is 20 cm and f = 0.007? The density of water may be taken as 1000 kg/m³. b) When this same pipe is old, assume that corrosion reduces the diameter to 18 cm and that f becomes 0.012. What will the rate of discharge be then?
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<
→
↑
11:39
SEARCH
Step 1: Given data
Given: Length of the pipe, L = 14
Step 2: a) Calculation of the discharge for
pipe diameter d=20 cm
▼ 1
L=140 m
Solution
AA
ASK
d
f
CHAT
Using Loss coefficient table, Loss
2
Step 3: b) Calculation of the discharge for
pipe diameter d=18 cm
The head loss in the pipe is g
WAS THIS HELPFUL?
v
(a) The discharge through the 20
bartleby.com
66
(
Transcribed Image Text:< → ↑ 11:39 SEARCH Step 1: Given data Given: Length of the pipe, L = 14 Step 2: a) Calculation of the discharge for pipe diameter d=20 cm ▼ 1 L=140 m Solution AA ASK d f CHAT Using Loss coefficient table, Loss 2 Step 3: b) Calculation of the discharge for pipe diameter d=18 cm The head loss in the pipe is g WAS THIS HELPFUL? v (a) The discharge through the 20 bartleby.com 66 (
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