B1. A crude oil of specific gravity 0.9 is flowing through a pipe of diameter 375 mm and the frictional head loss of 3 m of crude oil between the two ends of a pipe which are 700 m apart. Calculate the Reynold's Number, discharge of crude oil in the pipe. Take co - efficient of friction as 0.0085 and kinematic viscosity as 10 stokes. The velocity of flow of oil in the pipe is (m/s) The Reynold's Number for the flow is Discharge of crude oil through pipe (in m³/s) is
B1. A crude oil of specific gravity 0.9 is flowing through a pipe of diameter 375 mm and the frictional head loss of 3 m of crude oil between the two ends of a pipe which are 700 m apart. Calculate the Reynold's Number, discharge of crude oil in the pipe. Take co - efficient of friction as 0.0085 and kinematic viscosity as 10 stokes. The velocity of flow of oil in the pipe is (m/s) The Reynold's Number for the flow is Discharge of crude oil through pipe (in m³/s) is
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter5: Analysis Of Convection Heat Transfer
Section: Chapter Questions
Problem 5.4P: 5.4 Evaluate the Stanton number for flow over a tube from the following data:
, , , , .
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![B1. A crude oil of specific gravity 0.9 is flowing through a pipe of diameter 375 mm and the
frictional head loss of 3 m of crude oil between the two ends of a pipe which are 700 m apart.
Calculate the Reynold's Number, discharge of crude oil in the pipe. Take co - efficient of friction as
0.0085 and kinematic viscosity as 10 stokes.
The velocity of flow of oil in the pipe is (m/s)
The Reynold's Number for the flow is
Discharge of crude oil through pipe (in m³/s) is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F23d7ce97-38a4-4562-a638-9269a070a67b%2F6a29bf8b-3cb8-4a86-84b5-85920c7de65d%2Fsd5o7yh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:B1. A crude oil of specific gravity 0.9 is flowing through a pipe of diameter 375 mm and the
frictional head loss of 3 m of crude oil between the two ends of a pipe which are 700 m apart.
Calculate the Reynold's Number, discharge of crude oil in the pipe. Take co - efficient of friction as
0.0085 and kinematic viscosity as 10 stokes.
The velocity of flow of oil in the pipe is (m/s)
The Reynold's Number for the flow is
Discharge of crude oil through pipe (in m³/s) is
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