Explanation Given: t = 15cm = 0. 15 m , k = 80 W/m-k , T 1 = 5 0 °C , T 1 = 60 °C , T ∞ = 10 °C Concept Used: The convection heat transfer coefficient can be calculated as below. T 1 − T 2 t / k A = T 2 − T ∞ 1 / h A T 1 = Temperature of the plate at the lower surface T 2 = Temperature of the plate at the upper surface t / k A = Conduction resistance 1 / h A = Convection resistance t = Thickness of the wall, k = Thermal conductivity h = Convection heat transfer coefficient A = Area of the wall normal to the direction of heat transfer Since, A is not given, thus, Let's consider A equal to the 1 m 2 Calculation: As per the given problem t = 15cm = 0. 15 m , k = 80 W/m-k , T 1 = 5 0 °C , T 1 = 60 °C , T ∞ = 10 °C , A = 1 m 2

6th Edition

ISBN: 9780073398198

Author: CENGEL

Publisher: RENT MCG

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Chapter 1, Problem 89P

To determine

Convection heat transfer coefficient on the upper surface of the plate.

Whether the value of convection heat transfer coefficient obtained is reasonable for the forced convection or not.

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Chapter 1, Problem 88P

Chapter 1, Problem 90P

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Chapter 1 Solutions

HEAT+MASS TRANSFER:FUND.+APPL.

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Convection heat transfer coefficient on the upper surface of the plate. Whether the value of convection heat transfer coefficient obtained is reasonable for the forced convection or not.

Convection heat transfer coefficient on the upper surface of the plate. Whether the value of convection heat transfer coefficient obtained is reasonable for the forced convection or not.

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Chapter 1 Solutions

Convection heat transfer coefficient on the upper surface of the plate.

Whether the value of convection heat transfer coefficient obtained is reasonable for the forced convection or not.