Investigation of magneto-hydrodynamic fluid squeezed between two parallel disks by considering Joule heating, thermal radiation, and adding different nanoparticles
Purpose This paper aims to study the impacts of viscous dissipation, thermal radiation and
Joule heating on squeezing flow current and the heat transfer mechanism for a …
Joule heating on squeezing flow current and the heat transfer mechanism for a …
Entropy optimized Darcy-Forchheimer nanofluid (silicon dioxide, molybdenum disulfide) subject to temperature dependent viscosity
Background In this research communication, entropy optimized Darcy-Forchheimer flow with
magnetohydrodynamic over a stretched surface is considered. Here Molybdenum disulfide …
magnetohydrodynamic over a stretched surface is considered. Here Molybdenum disulfide …
Numerical analysis of dual variable of conductivity in bioconvection flow of Carreau–Yasuda nanofluid containing gyrotactic motile microorganisms over a porous …
The increasing need of the modern era of technology for better ways to increase the heat
transfer performance of thermal systems has made nanoliquids much more critical than they …
transfer performance of thermal systems has made nanoliquids much more critical than they …
[PDF][PDF] Heat and mass transfer analysis for bioconvective flow of Eyring Powell nanofluid over a Riga surface with nonlinear thermal features
This study aims to explore the rheological consequences of Eyring Powell nanofluid along
with the swimming characteristics of gyrotactic microorganisms over the surface of the Riga …
with the swimming characteristics of gyrotactic microorganisms over the surface of the Riga …
[HTML][HTML] On the role of bioconvection and activation energy for time dependent nanofluid slip transpiration due to extending domain in the presence of electric and …
A mathematical analysis for slip effects on MHD nanofluid in the presence of
electromagnetic field and gyrotactic microorganisms is considered. The influence of …
electromagnetic field and gyrotactic microorganisms is considered. The influence of …
Evaluating the characteristics of magnetic dipole for shear-thinning Williamson nanofluid with thermal radiation
Abstract Objective A recent evolution in fluid dynamics has been the consideration of
nanoliquids which retains exceptional thermal conductivity characteristics and upsurge heat …
nanoliquids which retains exceptional thermal conductivity characteristics and upsurge heat …
Implementing renewable solar energy in presence of Maxwell nanofluid in parabolic trough solar collector: a computational study
The solar radiations are absorbed in the form of heat energy by using the solar centering
systems in solar collectors, this energy is then transmitted to nanofluid. This study concerns …
systems in solar collectors, this energy is then transmitted to nanofluid. This study concerns …
Theoretical study of micropolar hybrid nanofluid over Riga channel with slip conditions
In this study, a steady flow of micropolar hybrid nanofluid over Riga channel has been
analyzed. Exponentially stretching and slip effects are also considered in this analysis. The …
analyzed. Exponentially stretching and slip effects are also considered in this analysis. The …
Numerical simulation for magnetic dipole in bioconvection flow of Jeffrey nanofluid with swimming motile microorganisms
Worldwide energy requirements demand the functioning and formulating of thermal
mechanisms and heat exchangers for the use and resuscitation of thermal energy. As a …
mechanisms and heat exchangers for the use and resuscitation of thermal energy. As a …
A generalized findings on thermal radiation and heat generation/absorption in nanofluid flow regime
This paper is about Newtonian nanofluid flow manifested with thermal radiation and heat
generation/absorption. Further, the study of interest are mixed convection, stagnation point …
generation/absorption. Further, the study of interest are mixed convection, stagnation point …