Explanation Given: Temperature or copper is 1000 K . Mass flow rate of air is 1.5 kg/s . Inlet temperature of air is 20 ° C . Exit temperature of air is 60 ° C . Flow rate of copper is 0.25 kg/s . Concept used: The heat lost by copper wire will be transferred to the air passing through the chamber. Write the expression for energy balance for controlled volume of cooling chamber. m ˙ a i r C p , a i r ( T 2 − T 1 ) = m ˙ c o p p e r C p , c o p p e r ( T 3 − T 4 ) ..... (1) Here, m ˙ a i r is the mass flow rate of air, C p , a i r is the specific heat of air, T 2 is the exit temperature of air, T 1 is the inlet temperature of air, m ˙ c o p p e r is the flow rate of copper, C p , c o p p e r is the specific heat of copper, T 3 is the inlet temperature or copper wire and T 4 is the exit temperature of copper wire. Calculation: Refer to Table A.3 "Properties of selected solids" to obtain the specific heat of copper as 0 .42 kJ/kg ⋅ K

10th Edition

ISBN: 9781119494966

Author: Borgnakke, C. (claus), Sonntag, Richard Edwin, Author.

Publisher: Wiley,

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Chapter 4, Problem 4.67P

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The temperature of copper at exit.

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The temperature of copper at exit.

Solution Summary: The author explains how the heat lost by copper wire will be transferred to the air passing through the chamber.

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