الفهرس 
Chapter (1) IntroductionOnly 14 pages are availabe for public view
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Abstract
Convective heat transfer is one of the most important heat exchange mechanisms in the production of appliances, covering a wide range of energy-related topics. Porous medium may improve convective heat transmission in a variety of applications by providing various surfaces as well as flow mixing condensation. Otherwise, suspensions containing hybrid nanoparticles increase the fluids thermal conductivity. As a result, employing both porous regimes and hybrid nanofluids can significantly increase the performance of various calorific equipments. In this thesis, we studied the heat and mass transfer of non-Newtonian hybrid nanofluids through various surfaces in the models which having porous materials and magnetic field.
In these problems, the impacts of porous medium permeability, magnetic field, chemical reactions, variable thermal conductivity, order of chemical reaction, Joule heating, thermal radiation, Biot number, yield stress, suction/injection and heat sink/source on the velocity, temperature, concentration, skin friction, transfer of heat and mass were discussed. By utilizing similar and nonsimilar transformations, the obtained controlling differential equations are dissolved numerically. The acquired outcomes are offered in tables and graphics, followed by a quantitative argumentation. A brief discussion of the chapters is provided below.