QE/ Consider the flow of a gas with density 1 kg/m³, viscosity 1.5 x 105 kg/(m.s), specific heat Cp = 845J/(kg.K) and thermal conductivity k = 0.01665 W/(m K), in a pipe of diarneter D = 0.01 m and length L = 1 m,and assume the viscosity does not change with temperature. If the gas flows through the pipe with anaverage velocity of 0.1 m/s, calculate the heat transfer coefficient?

Answered: Image /qna-images/answer/6589812e-5b05-4c8e-9ce2-f22972404bea.jpg

QE/ Consider the flow of a gas with density 1 kg/m³, viscosity 1.5 x 105 kg/(m.s), specific heat Cp = 845 J/(kg.K) and thermal conductivity k = 0.01665 W/(m K), in a pipe of diameter D = 0.01 m and length L = 1 m, and assume the viscosity does not change with temperature. If the gas flows through the pipe with an average velocity of 0.1 m/s, calculate the heat transfer coefficient?

QE/ Consider the flow of a gas with density 1 kg/m³, viscosity 1.5 x 105 kg/(m.s), specific heat Cp = 845 J/(kg.K) and thermal conductivity k = 0.01665 W/(m K), in a pipe of diameter D = 0.01 m and length L = 1 m, and assume the viscosity does not change with temperature. If the gas flows through the pipe with an average velocity of 0.1 m/s, calculate the heat transfer coefficient?

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Question

QE/ Consider the flow of a gas with density 1 kg/m³, viscosity 1.5 x 105 kg/(m.s), specific heat Cp = 845
J/(kg.K) and thermal conductivity k = 0.01665 W/(m K), in a pipe of diarneter D = 0.01 m and length L = 1 m,
and assume the viscosity does not change with temperature. If the gas flows through the pipe with an
average velocity of 0.1 m/s, calculate the heat transfer coefficient?

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