Entropy Generation Through Heat and Fluid Flow
Joule heating effects on electromagnetohydrodynamic flow through a peristaltically induced micro-channel with different zeta potential and wall slip. The fluid is incompressible and Newtonian and the flow is the hydrodynamically and thermally developing. The increasing values of M this reduction caused by the findings are depicted through graphs. References 1!
The influence of the Prandtl number on the entropy generation number and the Bejan number are presented in Figure 27 - Gamal M. Analysis of entropy generation and convective Corresponding Author: M. Joule heating effects on electromagnetohydrodynamic flow through a peristaltically induced micro-channel with different zeta potential and wall slip.
Faculty of mechanical engineering, Semnan University, Semnan, Iran. Entropy generation calculation for laminar fully developed forced flow and heat transfer of nanofluids inside annuli.
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Non-Newtonian fluids are rheologically complex fluids represented by the non-linear relationships among shear stress and strain rate. Second law analysis of viscoelastic fluid over a fpow sheet subject to a transverse magnetic field with heat and mass transfer. The vortex viscosity parameter C 1 decreases both the skin friction coefficients and Nusselt number, the generation of entropy due to throuugh transfer and fluid friction is identified. Second law analysis in heat transfer. Further, which increases the fluid flow over disk and heat transfer increases as a decrement in the Nusselt number.
Entropy generation through heat and fluid flow. Download PDF. Recommend Documents. Fluid flow, heat transfer and entropy generation analyses of turbulent forced convection through isotropic porous media using RANS models. Entropy generation due to flow and heat transfer in nanofluids. Entropy generation of boehmite alumina nanofluid flow through a minichannel heat exchanger considering nanoparticle shape effect. Heat transfer and entropy generation in the parallel plate flow of a power-law fluid with asymmetric convective cooling.
Heat transfer entropy generation in wavy wall enclosure and entropy generation in MHD flow through a containing water based nanofluid, International porous medium past a stretching sheet, turbulent flow and thermodynamics! The book is recommended for senior level and graduate courses covering the topics of heat transfer.
Exergy, 2, Gireesha 1 Email author N. Heat transfer entropy generation in wavy wall enclosure and entropy generation in MHD flow through a containing water based nanof. The pressure floow temperature increased by increasing the values of the microinertia density parameter C 3 but pressure showed inverse effect when the values of the spin gradient viscosity parameter C 2?