A 1 m x 1.25 m hot surface at 300 C is to be cooled by attaching a rectangular fins (k = 200 W/m K) with 30 mm length, 75 mm width and 5 mm base thickness. Fins are exposed to an ambient air condition...


A 1 m x 1.25 m hot surface at 300 C is to be cooled by<br>attaching a rectangular fins (k = 200 W/m K) with 30 mm<br>length, 75 mm width and 5 mm base thickness. Fins are<br>exposed to an ambient air condition of 25°C and heat transfer<br>coefficient is 30 W/m K. If there are 2250 fins, calculate;<br>The heat transfer rate from a single fin.<br>%3D<br>b. The increase in the rate of heat transfer.<br>c. Determine the overall effectiveness of the fins.<br>

Extracted text: A 1 m x 1.25 m hot surface at 300 C is to be cooled by attaching a rectangular fins (k = 200 W/m K) with 30 mm length, 75 mm width and 5 mm base thickness. Fins are exposed to an ambient air condition of 25°C and heat transfer coefficient is 30 W/m K. If there are 2250 fins, calculate; The heat transfer rate from a single fin. %3D b. The increase in the rate of heat transfer. c. Determine the overall effectiveness of the fins.

Jun 11, 2022
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