Experimental investigation of circular free-surface jet impingement quenching: Transient hydrodynamics and heat transfer

Article ID	Journal	Published Year	Pages	File Type
651976	Experimental Thermal and Fluid Science	2011	9 Pages	PDF

Abstract

âº Heat transfer estimation during jet impingement quenching of stainless steel. âº Transient experiment with initial steel temperature of 900Â Â°C. âº Inverse analysis to determine the heat transfer rate. âº Jet velocity has a strong influence on the wetting front growth. âº Boiling heat transfer rate increases with jet velocity.

Keywords

Boiling Stainless steel Quenching

Related Topics

Physical Sciences and Engineering Chemical Engineering Fluid Flow and Transfer Processes

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Experimental investigation of circular free-surface jet impingement quenching: Transient hydrodynamics and heat transfer

Authors

Nitin Karwa, Tatiana Gambaryan-Roisman, Peter Stephan, Cameron Tropea,