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-90° 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.
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-90° 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.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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![Question 42
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-90° 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*
Tank A
30.5 m
689.3 KPa
Tank B
91.5 m
Blank 1
Add your answer
39.6 m
344.6 KPa](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fac416148-f574-4484-ad0d-c4749995870e%2F0a2eb1ed-68b8-42ac-a5a9-db483bc52b75%2F5t5991t_processed.png&w=3840&q=75)
Transcribed Image Text:Question 42
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-90° 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*
Tank A
30.5 m
689.3 KPa
Tank B
91.5 m
Blank 1
Add your answer
39.6 m
344.6 KPa
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