화학공학소재연구정보센터
International Journal of Heat and Mass Transfer, Vol.126, 1337-1346, 2018
Salient aspects of entropy generation optimization in mixed convection nanomaterial flow
Analysis regarding entropy generation has turn out to be a useful approach to address refinements in thermal characteristics since it yields an intuition which cannot be acquired through energy analysis. The rate of entropy generation appropriately computes thermodynamic irreversibilities. Thus a decay of entropy productivity results in more effective energy transport mechanisms. Keeping aforementioned effectiveness in mind we aimed to elaborate entropy generation characteristics in unsteady nonlinear convective nanoliquid flow towards convectively heated permeable surface. Magneto nanomaterial model featuring thermophoretic and Brownian diffusion characteristics is considered. Thermodynamic second relation is utilized for entropy generation analysis. Modeling is arranged for viscous dissipation, heat generation, nonlinear radiation and Joule dissipation. Boundary-layer concept is opted for formulation. Influence of distinct variables velocity, temperature and concentration are discussed In addition rate of total entropy generation is highlighted. Besides, the gradients (velocity, thermal and solutal) are calculated and analyzed. We noted increasing trend for Brinkman number, magnetic and permeability parameters versus entropy generation rate. Further the Bejan number has opposite outcomes versus Brinkman number and radiation parameter. (C) 2018 Elsevier Ltd. All rights reserved.