A steel tube having k = 46 W/m · ◦C has an inside diameter of 3.0 cm and a tube wall thickness of 2 mm. A fluid flows on the inside of the tube producing a convection coefficient of 1500 W/m2 · ◦C on the inside surface, while a second fluid flows across the outside of the tube producing a convection coefficient of 197 W/m2 · ◦C on the outside tube surface. The inside fluid temperature is 223◦C while the outside fluid temperature is 57◦C. Calculate the heat lost by the tube per meter of length
A steel tube having k = 46 W/m · ◦C has an inside diameter of 3.0 cm and a tube wall thickness of 2 mm. A fluid flows on the inside of the tube producing a convection coefficient of 1500 W/m2 · ◦C on the inside surface, while a second fluid flows across the outside of the tube producing a convection coefficient of 197 W/m2 · ◦C on the outside tube surface. The inside fluid temperature is 223◦C while the outside fluid temperature is 57◦C. Calculate the heat lost by the tube per meter of length
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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A steel tube having k = 46 W/m · ◦C has an inside diameter of 3.0 cm and a tube wall thickness of 2 mm. A fluid flows on the inside of the tube producing a convection coefficient of 1500 W/m2 · ◦C on the inside surface, while a second fluid flows across the outside of the tube producing a convection coefficient of 197 W/m2 · ◦C on the outside tube surface. The inside fluid temperature is 223◦C while the outside fluid temperature is 57◦C. Calculate the heat lost by the tube per meter of length
Transcribed Image Text:2-9 A steel tube having k = 46 W/m · •C has an inside diameter of 3.0 cm and a tube wall
thickness of 2 mm. A fluid flows on the inside of the tube producing a convection
coefficient of 1500 W/m2 · •C on the inside surface, while a second fluid flows across
the outside of the tube producing a convection coefficient of 197 W/m2 · •C on the
outside tube surface. The inside fluid temperature is 223•C while the outside fluid
temperature is 57•C. Calculate the heat lost by the tube per meter of length
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