Iowing (5) Through the pip velocity of 1,2 m/s. Calculate the heat transfer coefficient from the liquid to the pipe wall, assuming that the average temperature of water is 30°C. How change heat transfer coefficient when the liquid velocity increases two times, and the average temperature will be than 60°C. Ith average (6) Assuming that the average water flow velocity is 1,2 m/s, to determine how will change the result corresponding to Exercise (5), if the pipe cross section would be a square.
Iowing (5) Through the pip velocity of 1,2 m/s. Calculate the heat transfer coefficient from the liquid to the pipe wall, assuming that the average temperature of water is 30°C. How change heat transfer coefficient when the liquid velocity increases two times, and the average temperature will be than 60°C. Ith average (6) Assuming that the average water flow velocity is 1,2 m/s, to determine how will change the result corresponding to Exercise (5), if the pipe cross section would be a square.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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KINDLY ANSWER FOR QUESTION NO 6. IT IS LINKED TO QUESTION 5
Transcribed Image Text:(5) Through the pipeline with an inner diameter of 32 mm water is flowing with average
velocity of 1,2 m/s. Calculate the heat transfer coefficient from the liquid to the pipe
wall, assuming that the average temperature of water is 30°C. How change heat
transfer coefficient when the liquid velocity increases two times, and the average
temperature will be than 60°C.
(6) Assuming that the average water flow velocity is 1,2 m/s, to determine how will
change the result corresponding to Exercise (5), if the pipe cross section would be
a square.
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