2. The slab shown is embedded in insulating materials on five sides, while the front face experiences convection off its face. Heat is generated inside the material by an exothermic reaction equal to...


2. The slab shown is embedded in insulating materials on five<br>sides, while the front face experiences convection off its face.<br>Heat is generated inside the material by an exothermic<br>reaction equal to 1.0 kW/m'. The thermal conductivity of the<br>slab is 0.2 W/mk.<br>a. Simplify the heat conduction equation and integrate<br>the resulting ID steady form of to find the<br>temperature distribution of the slab, T(x).<br>b. Present the temperature of the front and back faces of<br>the slab.<br>n-20-<br>10 cm<br>IT- 25°C)<br>100 cm<br>100 cm<br>

Extracted text: 2. The slab shown is embedded in insulating materials on five sides, while the front face experiences convection off its face. Heat is generated inside the material by an exothermic reaction equal to 1.0 kW/m'. The thermal conductivity of the slab is 0.2 W/mk. a. Simplify the heat conduction equation and integrate the resulting ID steady form of to find the temperature distribution of the slab, T(x). b. Present the temperature of the front and back faces of the slab. n-20- 10 cm IT- 25°C) 100 cm 100 cm

Jun 11, 2022
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