期刊
SCIENCE PROGRESS
卷 104, 期 3, 页码 -出版社
SAGE PUBLICATIONS LTD
DOI: 10.1177/00368504211042261
关键词
Thermal radiation; mixed convection; heat transfer; nanofluid flow; porous medium; heat generation
资金
- Taif University, Saudi Arabia [TURSP-2020/162]
The study investigates the impact of mixed convection and thermal radiation on unsteady boundary layer heat transfer and nanofluid flow over a permeable moving surface via a porous medium, with consideration of heat generation. The governing equations are transformed and solved numerically, revealing the influence of thermophysical parameters analytically and graphically with comparisons to prior studies showing good agreement.
Here, we study the effect of mixed convection and thermal radiation on unsteady boundary layer of heat transfer and nanofluid flow over permeable moving surface through a porous medium. The effect of heat generation is also discussed. The equations governing the system are the continuity equation, momentum equation and the heat transfer equation. These governing equations transformed into a system of nondimensional equations contain many physical parameters that describe the study. The transformed equations are solved numerically using an implicit finite difference technique with Newton's linearization method. The thermo-physical parameters describe the study are the mixed convection parameter alpha, 0 << alpha << 10, the Radiation parameter Rd, 0 << Rd << 1.0, porous medium parameter k, 0 << k << 1.0, the nanoparticles volume phi,0 << << 0.2, the suction or injection parameter f(w), -1 << f(w) << 1, the unsteadiness parameter A(t), 1 << A(t) << 2 and the heat source parameter lambda = 0.5. The influence of the thermo-physical parameters is obtained analytically and displayed graphically. Comparisons of some special cases of the present study are performed with previously published studies and a good agreement is obtained.
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