class 4 - Click to edit Master subtitle style 8/13/11...

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Unformatted text preview: Click to edit Master subtitle style 8/13/11 One-Dimensional, Steady-State Conduction - Radial Chapter Three Section 3.3-5 Class 4 8/13/11 Series Parallel Composite Wall : F G k k x q 8/13/11 A composite wall separates combustion gases at 2600& C from a liquid coolant at 100 K C, with gas and liquid side coefficients of 50 and 1000 W/m2-K. The wall is composed of 10 mm thick layer of beryllium oxide on the gas side and 20mm thick slab of stainless steel (AISI 304) on the liquid side. The contact resistance between the oxide and the steel is .05 m2-K/W. What is the heat loss per unit surface area of the composite and the temperaturesin the wall?? 8/13/11 A composite wall separates combustion gases at 2600& C from a liquid coolant at 100 &C, with gas and liquid side coefficients of 50 and 1000 W/m2-K. The wall is composed of 10 mm thick layer of beryllium oxide on the gas side and 20mm thick slab of stainless steel (AISI 304) on the liquid side. The contact resistance between the oxide and the steel is .05 m2-K/W. What are the temperatures in the wall? 8/13/11 A composite wall separates combustion gases at 2600& C from a liquid coolant at 100 &C, with gas and liquid side coefficients of 50 and 1000 W/m2-K. The wall is composed of 10 mm thick layer of beryllium oxide on the gas side and 20mm thick slab of stainless steel (AISI 304) on the liquid side. The contact resistance between the oxide and the steel is .05 m2-K/W. What are the temperatures in the wall? 8/13/11...
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This note was uploaded on 08/13/2011 for the course CHEM 3210 taught by Professor Degrazia during the Fall '10 term at Colorado.

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class 4 - Click to edit Master subtitle style 8/13/11...

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