Example: In a production facility, large brass plates of 4 cm thickness that are initially at a uniform temperature of 20°C are heated by passing them through an oven that is maintained at 500°C (Figure). The plates remain in the oven for a period of 7 min. Taking the combined convection and radiation heat transfer coefficient to be h = 120 W/m2·°C, determine the surface temperature of the plates when they come out of the oven.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Example: In a production facility, large brass plates of 4 cm thickness that are initially at a uniform temperature of 20°C are heated by passing them through an oven that is maintained at 500°C (Figure). The plates remain in the oven for a period of 7 min. Taking the combined convection and radiation heat transfer coefficient to be h = 120 W/m2·°C, determine the surface temperature of the plates when they come out of the oven.
Example: In a production facility, large brass plates of 4 cm thickness that
are initially at a uniform temperature of 20°C are heated by passing them
through an oven that is maintained at 500°C (Figure). The plates remain in
the oven for a period of 7 min. Taking the combined convection and
radiation heat transfer coefficient to be h
120 W/m2.°C, determine the
surface temperature of the plates when they come out of the oven.
T, = 500°C
h = 120 W/m²-C
2L=4 cm
Brass
plate
T; = 20°C
Transcribed Image Text:Example: In a production facility, large brass plates of 4 cm thickness that are initially at a uniform temperature of 20°C are heated by passing them through an oven that is maintained at 500°C (Figure). The plates remain in the oven for a period of 7 min. Taking the combined convection and radiation heat transfer coefficient to be h 120 W/m2.°C, determine the surface temperature of the plates when they come out of the oven. T, = 500°C h = 120 W/m²-C 2L=4 cm Brass plate T; = 20°C
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