Convection, Conduction, and Overall U. A gas at 450 K is flowing inside a 2-in. steel pipe, schedule 40. The pipe is insulated with 51 mm of lagging having a mean k = 0.0623 W/m K. The convective...


Convection, Conduction, and Overall U. A gas at 450 K is flowing inside a 2-in.<br>steel pipe, schedule 40. The pipe is insulated with 51 mm of lagging having a<br>mean k = 0.0623 W/m K. The convective heat-transfer coefficient of the gas<br>inside the pipe is 30.7 W/m2 · K and the convective coefficient on the outside of<br>the lagging is 10.8. The air is at a temperature of 300 K.<br>(a) Calculate the heat loss per unit length of 1 m of pipe using resistances.<br>(b) Repeat using the overall.U, based on the outside area A,.<br>

Extracted text: Convection, Conduction, and Overall U. A gas at 450 K is flowing inside a 2-in. steel pipe, schedule 40. The pipe is insulated with 51 mm of lagging having a mean k = 0.0623 W/m K. The convective heat-transfer coefficient of the gas inside the pipe is 30.7 W/m2 · K and the convective coefficient on the outside of the lagging is 10.8. The air is at a temperature of 300 K. (a) Calculate the heat loss per unit length of 1 m of pipe using resistances. (b) Repeat using the overall.U, based on the outside area A,.

Jun 07, 2022
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