Answered: thick-walled tube of stainless steel [18% Cr, 8% Ni, k = 19 W/m · ◦C] with 2-cm inner diameter (ID) and 4-cm outer diameter (OD) is covered with a 3-cm layer of…

Elements Of Electromagnetics

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ISBN: 9780190698614

Author: Sadiku, Matthew N. O.

Publisher: Oxford University Press

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thick-walled tube of stainless steel [18% Cr, 8% Ni, k = 19 W/m · ◦C] with 2-cm inner diameter (ID) and 4-cm outer diameter (OD) is covered with a 3-cm layer of asbestos insulation [k = 0.2 W/m · ◦C]. If the inside wall temperature of the pipe is maintained at 600◦C, calculate he heat loss per meter of length. Also calculate the tube–insulation interface temperature.

YAMPLE 9 thick-walled tube of stainless steel [18% Cr. 8% Ni, k = 19 W/m C] with 2-cm
inner diameter (ID) and 4-cm outer diameter (OD) is covered with a 3-cm layer of asbestos
insulation [k = 0.2 W/m °C/. If the inside wall temperature of the pipe is maintained at 600 C,
calculate he heat loss per meter of length. Also calculate the tube-insulation interface
temperature.
Stainless steel
I = 600°C
73
Asbestos
T,= 100°C
T2
In (r3/r2)
In (r/r)
2Tk L

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Steel pipe (outer diameter 100 mm) is covered with two layers of insulation. The inner layer, 40 mm thick, has a thermal conductivity of 0.07 W / (m K). The outer layer, 20 mm thick, has a thermal conductivity of 0.15 W / (m K). Pipes are used to deliver steam with a pressure of 600 kPa. The temperature on the outer insulation surface is 24 ° C. If the pipe is 8 m long, determine the following: (assuming that the conduction heat transfer resistance of the steel pipe and the vapor convection resistance are negligible). a. Heat loss per hour. = kJ / hour. b. Temperature between insulation layers. = ° C
Steel pipe (outer diameter 100 mm) is covered with two layers of insulation. The inner layer, 40 mm thick, has a thermal conductivity of 0.07 W / (m K). The outer layer, 20 mm thick, has a thermal conductivity of 0.15 W / (m K). Pipes are used to deliver steam with a pressure of 800 kPa. The temperature on the outer insulation surface is 24 ° C. If the pipe is 10 m long, determine the following: (assuming that the conduction heat transfer resistance of the steel pipe and the vapor convection resistance are negligible). a. Heat loss per hour. = Answer kJ / hour. b. Temperature between insulation layers. = Answer ° C.

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