2. A composite wall is made of 2 layers of different materials, A & B. the external surface of layer A is maintained at a constant temperature of 60°C, while the external surface of layer B is in contact with ambient air. The convective heat transfer coefficient for slab B is 8 W/m²K. Determine the temperatures T2 and T3. Assume the radiation emissivity of the external surface of layer B is equal to zero. Calculate the total heat transfer rate through the composite wall. External surface temperature of layer A T₁= 60°C Thermal conductivities: Layer A: 0.5 W/mK Layer B: 0.6 W/mK 3.5 m 5 cm 6 m pop T2 - Temperature between layers A & B 12 cm T3 - External surface temperature of layer B Ambient Air Convective air flow over layer B surface Free stream temperature Too = 28°C Convective heat transfer coefficient h = 8 W/m²K (Ans: T2= 52.5°C, T3= 37.4°C, Q=1581W)

2. A composite wall is made of 2 layers of different materials, A & B. the external surface of layer A is maintained at a constant temperature of 60°C, while the external surface of layer B is in contact with ambient air. The convective heat transfer coefficient for slab B is 8 W/m²K. Determine the temperatures T2 and T3. Assume the radiation emissivity of the external surface of layer B is equal to zero. Calculate the total heat transfer rate through the composite wall. External surface temperature of layer A T₁= 60°C Thermal conductivities: Layer A: 0.5 W/mK Layer B: 0.6 W/mK 3.5 m 5 cm 6 m pop T2 - Temperature between layers A & B 12 cm T3 - External surface temperature of layer B Ambient Air Convective air flow over layer B surface Free stream temperature Too = 28°C Convective heat transfer coefficient h = 8 W/m²K (Ans: T2= 52.5°C, T3= 37.4°C, Q=1581W)

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter14: Heat And Heat Transfer Methods

Section: Chapter Questions

Problem 62PE: The Sun radiates like a perfect black body with an emissivity of exactly 1. (a) Calculate the...

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