Two reservoirs are connected by a pipeline consisting of pipe 1, pipe 2, pipe 3 connected in series with length of 170 m, 300 m, 210 m respectively. The different in water surface levels in two reservoirs is 12 m. The friction coefficient for pipe 1, pipe 2 and pipe 3 are 0.0052, 0.005 and 0.0048 respectively. Based on Table 2 and the setting given, determine the flowrate of the flow if the entrance loss coefficient is 0.25 considering : (i) minor losses; and (ii) neglecting minor losses. pipe 1= 210(mm) pipe 2= 310(mm) Pipe 3= 410(mm)
Two reservoirs are connected by a pipeline consisting of pipe 1, pipe 2, pipe 3 connected in series with length of 170 m, 300 m, 210 m respectively. The different in water surface levels in two reservoirs is 12 m. The friction coefficient for pipe 1, pipe 2 and pipe 3 are 0.0052, 0.005 and 0.0048 respectively. Based on Table 2 and the setting given, determine the flowrate of the flow if the entrance loss coefficient is 0.25 considering : (i) minor losses; and (ii) neglecting minor losses. pipe 1= 210(mm) pipe 2= 310(mm) Pipe 3= 410(mm)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
Two reservoirs are connected by a pipeline consisting of pipe 1, pipe 2, pipe 3
connected in series with length of 170 m, 300 m, 210 m respectively. The
different in water surface levels in two reservoirs is 12 m. The friction coefficient
for pipe 1, pipe 2 and pipe 3 are 0.0052, 0.005 and 0.0048 respectively. Based on
Table 2 and the setting given, determine the flowrate of the flow if the entrance
loss coefficient is 0.25 considering :
(i) minor losses; and
(ii) neglecting minor losses.
pipe 1= 210(mm)
pipe 2= 310(mm)
Pipe 3= 410(mm)
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