A composite wall separates combustion gases at 2600C from a liquid coolant at 100C, with gas and liquid side convection coefficients of 50 and 1000 W m 2 K The wall is composed of a 10 mm thick layer of beryllium oxide on the gas side and a 20 mm thick slab of stainless steel (AISI 304) on the liqu...

KNOWN Materials and dimensions of a composite wall separating a combustion gas from a liquid coolant ...

A composite wall separates combustion gases at 2600C from a liquid coolant at 100C, with gas- and

Question:

A composite wall separates combustion gases at 2600°C from a liquid coolant at 100°C, with gas- and liquid-side convection coefficients of 50 and 1000 W/m² ∙ K. The wall is composed of a 10-mm-thick layer of beryllium oxide on the gas side and a 20-mm-thick slab of stainless steel (AISI 304) on the liquid side. The contact resistance between the oxide and the steel is 0.05 m² ∙ K/W. What is the heat loss per unit surface area of the composite? Sketch the temperature distribution from the gas to the liquid.

Distribution
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