A long, cylindrical, electrical heating element of diameter D = 14 mm, thermal conductivity k = 251 W/m ⋅ K, density ρ = 2,805 kg/m3, and specific heat cp = 903 J/kg ⋅ K is installed in a duct for which air moves in cross-flow over the heater at a temperature and velocity of 30°C and 9 m/s, respectively. (a) Neglecting radiation, estimate the steady‐state surface temperature when, per unit length of the heater, electrical energy is being dissipated at a rate of 1,033 W/m.
A long, cylindrical, electrical heating element of diameter D = 14 mm, thermal conductivity k = 251 W/m ⋅ K, density ρ = 2,805 kg/m3, and specific heat cp = 903 J/kg ⋅ K is installed in a duct for which air moves in cross-flow over the heater at a temperature and velocity of 30°C and 9 m/s, respectively. (a) Neglecting radiation, estimate the steady‐state surface temperature when, per unit length of the heater, electrical energy is being dissipated at a rate of 1,033 W/m.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A long, cylindrical, electrical heating element of diameter D = 14 mm, thermal conductivity k = 251 W/m ⋅ K, density ρ = 2,805 kg/m3, and specific heat cp = 903 J/kg ⋅ K is installed in a duct for which air moves in cross-flow over the heater at a temperature and velocity of 30°C and 9 m/s, respectively.
(a) Neglecting radiation, estimate the steady‐state surface temperature when, per unit length of the heater, electrical energy is being dissipated at a rate of 1,033 W/m.
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