Thermal analysis for a gravity-driven liquid film along an inclined porous substrate
Author:
Publisher
Elsevier BV
Subject
General Chemical Engineering,General Chemistry
Reference13 articles.
1. Thermodynamic analysis of gravity-driven liquid film along an inclined heated plate with hydromagnetic and viscous dissipation effects;Saouli-Aïboud;Entropy,2006
2. Second-law analysis of laminar fluid flow in a heated channel with hydromagnetic and viscous dissipation effects;Saouli-Aïboud;Appl Energy,2007
3. Second Law Analysis of a non-Newtonian laminar falling liquid film along an inclined heated plate;Subba;Entropy,2007
4. Second law analysis of a gravity-driven liquid film flowing along an inclined plate subjected to constant wall temperature;Al-Ahmed;Int J Exergy,2014
5. Second law analysis of laminar falling liquid film along an inclined heated plate;Saouli;Int Commun Heat Mass Transf,2014
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