A furnace wall is made up of three layer of thickness 200 mm, 100 mm, and 125  mm with thermal conductivity of 1.65 W/m-K, k2, and 9.2 W/m-K respectively. The  inside is exposed to gases at 1200°C with a convection coefficient of 25 W/m2 -K  and the inside surface temperature is at 1000°C, the outside air temperature is at  30°C with convection coefficient of 12 W/m2 -K. Calculate: a. the unknown thermal conductivity;

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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 A furnace wall is made up of three layer of thickness 200 mm, 100 mm, and 125 
mm with thermal conductivity of 1.65 W/m-K, k2, and 9.2 W/m-K respectively. The 
inside is exposed to gases at 1200°C with a convection coefficient of 25 W/m2
-K 
and the inside surface temperature is at 1000°C, the outside air temperature is at 
30°C with convection coefficient of 12 W/m2
-K. Calculate:
a. the unknown thermal conductivity;

 

2. A furnace wall is made up of three layer of thickness 200 mm, 100 mm, and 125
mm with thermal conductivity of 1.65 W/m-K, k2, and 9.2 W/m-K respectively. The
inside is exposed to gases at 1200°C with a convection coefficient of 25 W/m²-K
and the inside surface temperature is at 1000°C, the outside air temperature is at
30°C with convection coefficient of 12 W/m²-K. Calculate:
a. the unknown thermal conductivity;
b. the outside surface temperature and mid-plane temperatures in °F.
Transcribed Image Text:2. A furnace wall is made up of three layer of thickness 200 mm, 100 mm, and 125 mm with thermal conductivity of 1.65 W/m-K, k2, and 9.2 W/m-K respectively. The inside is exposed to gases at 1200°C with a convection coefficient of 25 W/m²-K and the inside surface temperature is at 1000°C, the outside air temperature is at 30°C with convection coefficient of 12 W/m²-K. Calculate: a. the unknown thermal conductivity; b. the outside surface temperature and mid-plane temperatures in °F.
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