Physics, 02.04.2020 03:24 xxtonixwilsonxx
The heat transfer coefficient for hydrogen flowing over a sphere is to be determined by observing the temperature–time history of a sphere fabricated from pure copper. The sphere, which is 20.0 mm in diameter, is at 70°C before it is inserted into the gas stream having a temperature of 27°C. A thermocouple on the outer surface of the sphere indicates 50°C 97 s after the sphere is inserted into the hydrogen. Find
a) What is the value of the specific heat of the copper at the average temperature of the process, in J/kg·K?
b) What is the value of the lumped thermal capacitance of the sphere, in J/K?
c) Solve for the thermal time constant, in sec.
d) What is the value of the heat transfer coefficient, in W/m2· K?
e) What is the value of the Biot number?
Answers: 2
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The heat transfer coefficient for hydrogen flowing over a sphere is to be determined by observing th...
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