For the following data given for a horizontal pipeline, predict gas flow rate in cu ft/hr. through the pipeline. Solve the problem the Weymouth equation d = 12.09 in Tb = 60 °F L= 100 mi Pb = 14.65 psia e = 0.0006 in p2 = 150 psia %3D T= 70 ° F p1 = 500 psia Yg = 0.65 If the pipeline goes uphill with an inclination angle of 3°, at what rate can the pipeline deliver natural gas.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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2. For the following data given for a horizontal pipeline, predict gas flow rate in cu
ft/hr. through the pipeline. Solve the problem the Weymouth equation
d = 12.09 in
Tb = 60 ° F
L = 100 mi
%3D
Pb = 14.65 psia
%3D
e = 0.0006 in
p2 = 150 psia
T= 70 °F
p1 = 500 psia
Yg = 0.65
3. If the pipeline goes uphill with an inclination angle of 3°, at what rate can the
pipeline deliver natural gas.
Transcribed Image Text:2. For the following data given for a horizontal pipeline, predict gas flow rate in cu ft/hr. through the pipeline. Solve the problem the Weymouth equation d = 12.09 in Tb = 60 ° F L = 100 mi %3D Pb = 14.65 psia %3D e = 0.0006 in p2 = 150 psia T= 70 °F p1 = 500 psia Yg = 0.65 3. If the pipeline goes uphill with an inclination angle of 3°, at what rate can the pipeline deliver natural gas.
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