Steel plates (AISI 1010) with a thickness of 6 mm and sides with a length L = 0.49 m, are transported at the exit of a heat treatment process and simultaneously cooled by atmospheric air with a speed u∞ = 5.24 m/s and T ∞ = 23.3°C in parallel flow over the plates. For an initial plate temperature of Ti = 327°C, what is the heat transfer rate in W leaving the plate? Considering that the air velocity is much greater than the plate velocity, what is the corresponding temperature change rate for that instant in K/s?
Steel plates (AISI 1010) with a thickness of 6 mm and sides with a length L = 0.49 m, are transported at the exit of a heat treatment process and simultaneously cooled by atmospheric air with a speed u∞ = 5.24 m/s and T ∞ = 23.3°C in parallel flow over the plates. For an initial plate temperature of Ti = 327°C, what is the heat transfer rate in W leaving the plate? Considering that the air velocity is much greater than the plate velocity, what is the corresponding temperature change rate for that instant in K/s?
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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Steel plates (AISI 1010) with a thickness of 6 mm and sides with a length L = 0.49 m, are transported at the exit of a heat treatment process and simultaneously cooled by atmospheric air with a speed u∞ = 5.24 m/s and T ∞ = 23.3°C in parallel flow over the plates. For an initial plate temperature of Ti = 327°C, what is the heat transfer rate in W leaving the plate? Considering that the air velocity is much greater than the plate velocity, what is the corresponding temperature change rate for that instant in K/s? Note: Use the correlations given in the book by Schmidt et al.. Resolutions using correlations and equations from other books will not be considered. Essay.
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