Heat Transfer Analysis During Quenching of Plate Roller in Quenching Machine Using CFD
DOI:
https://doi.org/10.24113/ijo-science.v5i6.240Abstract
A computational fluid dynamics analysis of steel plate using volume of fluid multiphase model moving at different velocity i.e. 0.1 to 1 m/sec with 0.1 m/sec interval. From the above concluding points it has been observed that heat flux increased for the steel plate moving at 0.1 m/sec. During quenching process the surface heat transfer coefficient increases at first. And when plate surface temperature is nearly 420 oC, surface heat transfer coefficients reach the maximum value of about 15000 W/(m2K). And then, The calculated heat transfer coefficients are applied to analyze plate temperature field of different thicknesses, and the difference between the calculated and measured temperature is less than 35 %.
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Hala Salman Hasan, Mathew James Peet “Heat transfer coefficients during quenching of steels” DOI: 10.1007/s00231-010-0721-4 March 2011
Rayyan Mamuda Dodo, T. Ause “Multi-response optimization of trans esterificationparameters of mahogany seed oil using grey relational analysis in Taguchi method for quenching application” DOI: 10.1016/j.heliyon.2019.e02167 August 2019
J.M.SalaaL.M.,LópezGonzález “Improvement of a chain-hardening furnace by computational fluid dynamics (CFD) simulation”Volume 81, Issue 3, July 2005, Pages 260-276
Sergey Makarov, A. M. Lipanov “Numerical Investigation of Heat Transfer During the Cooling of a Metal Cylinder by a Flow of a Gas-Liquid Medium in an Annular Channel” DOI: 10.1007/s10891-019-02009-2 August 2019
Tiago Augusto Moreira, Alex Roger Almeida Colmanetti “Heat transfer coefficient: a review of measurement techniques” DOI: 10.1007/s40430-019-1763-2 May 2019
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Copyright (c) 2019 Sanskar singh, vandana singh, kajol kumari

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