Consider an internal flow within a circular pipe as shown below. Pipe diameter, water mean inlet and exit temperatures with the mass flowrate is given with the figure. Please note that the figure is not scaled. water 64°C D= 5 cm 20°C 0.01 kg/s i- Calculate the length of the pipe, if it is heated with a uniform, constant surface heat flux of 300 W/m². Calculate the surface temperature at the exit of the pipe. 11-

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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Consider an internal flow within a circular pipe as shown below. Pipe diameter, water
mean inlet and exit temperatures with the mass flowrate is given with the figure. Please note
that the figure is not scaled.
water
64°C
D= 5 cm
20°C
0.01 kg/s
i-
Calculate the length of the pipe, if it is heated with a uniform, constant surface heat
flux of 300 W/m².
Calculate the surface temperature at the exit of the pipe.
11-
Transcribed Image Text:Consider an internal flow within a circular pipe as shown below. Pipe diameter, water mean inlet and exit temperatures with the mass flowrate is given with the figure. Please note that the figure is not scaled. water 64°C D= 5 cm 20°C 0.01 kg/s i- Calculate the length of the pipe, if it is heated with a uniform, constant surface heat flux of 300 W/m². Calculate the surface temperature at the exit of the pipe. 11-
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