Experiments have shown that, for airflow at T = 35°C and V₁ = 100 m/s, the rate of heat transfer from a tur- bine blade of characteristic length L₁= 0.15 m and sur- face temperature T1 = 300°C is q₁ = 1500 W. What would be the heat transfer rate from a second turbine blade of characteristic length L₂ = 0.3 m operating at 2= 400°C in airflow of T. = 35°C and V₂ = 50 m/s? The surface area of the blade may be assumed to be directly proportional to its characteristic length.

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
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Experiments have shown that, for airflow at To = 35°C
and V₁ = 100 m/s, the rate of heat transfer from a tur-
bine blade of characteristic length L₁ = 0.15 m and sur-
face temperature T1 = 300°C is q₁ = 1500 W. What
would be the heat transfer rate from a second turbine
blade of characteristic length L₂ = 0.3 m operating at
T2 = 400°C in airflow of T. = 35°C and V₂ = 50 m/s?
The surface area of the blade may be assumed to be
directly proportional to its characteristic length.
Transcribed Image Text:Experiments have shown that, for airflow at To = 35°C and V₁ = 100 m/s, the rate of heat transfer from a tur- bine blade of characteristic length L₁ = 0.15 m and sur- face temperature T1 = 300°C is q₁ = 1500 W. What would be the heat transfer rate from a second turbine blade of characteristic length L₂ = 0.3 m operating at T2 = 400°C in airflow of T. = 35°C and V₂ = 50 m/s? The surface area of the blade may be assumed to be directly proportional to its characteristic length.
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