hown in the figure below is a pipe system (commecial steel pipes) having a given centerline geometry is to be used to transfer oil from Tank A to Tank B at a rate of 1.70 cubic meter per minute. Minor losses from the pipeline are due to 2 pcs-90o elbows (K = 0.5) ; Contraction (K = 0.05) and Expansion (K=1). If the oil has a density of 801.3 kilogram per cubic meter and viscosity of 2.394x10 -2 kilogram per meter per second, the diameter of the pipe in millimeter is Blank 1 mm. *Express your answers in whole significant figure without decimal value and without uni
hown in the figure below is a pipe system (commecial steel pipes) having a given centerline geometry is to be used to transfer oil from Tank A to Tank B at a rate of 1.70 cubic meter per minute. Minor losses from the pipeline are due to 2 pcs-90o elbows (K = 0.5) ; Contraction (K = 0.05) and Expansion (K=1). If the oil has a density of 801.3 kilogram per cubic meter and viscosity of 2.394x10 -2 kilogram per meter per second, the diameter of the pipe in millimeter is Blank 1 mm. *Express your answers in whole significant figure without decimal value and without uni
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.
Chapter3: Transient Heat Conduction
Section: Chapter Questions
Problem 3.41P
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Shown in the figure below is a pipe system (commecial steel pipes) having a given centerline geometry is to be used to transfer oil from Tank A to Tank B at a rate of 1.70 cubic meter per minute. Minor losses from the pipeline are due to 2 pcs-90o elbows (K = 0.5) ; Contraction (K = 0.05) and Expansion (K=1).
If the oil has a density of 801.3 kilogram per cubic meter and viscosity of 2.394x10 -2 kilogram per meter per second, the diameter of the pipe in millimeter is Blank 1 mm.
*Express your answers in whole significant figure without decimal value and without unit*
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