A5048916784- Nanofluid Flow and Heat Transfer
- Heat Transfer Mechanisms
- Fluid Dynamics and Turbulent Flows
- Particle Dynamics in Fluid Flows
- Heat Transfer and Optimization
- Heat and Mass Transfer in Porous Media
University of Management and Technology
2021-2024
This manuscript uncovers the heat and mass transfer of an unsteady tangent hyperbolic nanofluid flow across extensible Riga wedge under effects stagnation point, source, activation energy. The computations with modified Hartmann numbers are embedded in this investigation particularly liquid stream scenario. focus pertains to augment conduction bulk as transport media. implications controlling parameters on non-dimensional speed, temperature, well concentration profiles visually portrayed....
In this article, we explore how activation energy and varied transit parameters influence the two-dimensional stagnation point motion of nano-biofilm Sutterby fluids incorporating gyrotactic microbes across a porous straining/shrinking sheet. Prior investigations implied that fluid viscosity as well thermal conductance are temperature based. This research proposes viscosity, heat capacity nanofluid attributes all modified by solute concentration. According to some empirical research,...
This paper evaluates thermal output for the flow of Maxwell nanofluid over an extending sheet with bioconvection micron size self‐motivated organisms. Radiative heat flux and two temperature boundary conditions, namely, prescribed surface (PST) (PHF), are considered. The is influenced by a magnetic field porosity effects medium. motivation pertains to attain enhancement in transportation via nanoparticle inclusion. possible settling nanoparticles may be avoided microorganisms. basic...
The main objective of this manuscript is to glance into the assets nanoparticles in stream generalized micropolar fluid and Carreau against an intensified elongated surface. In order assess, heat mass diffusion occurrences, Cattaneo-Christov implications are also experienced temperature concentration computations. contrast prior studies, rheological attributes on non-Newtonian fluids depicted by engaging liquid that reflect a clear difference transport phenomena. By minimizing number...
A conceptual template of nano-biofilm for micropolar fluid transportation towards an elongating or dwindling sheet comprising stagnation point stream, spherical nanoparticles as well bioconvection gyrotactic microbes has been designed. The liquid's variable transit assets (dynamic viscosity, spin gradient heat capacity, nanoparticle mass diffusivity) and (species are attributed. nonlinear systems partial differential computations modified into standard equations employing a similarity...
Abstract The utilization of nanoentities in common fluids has opened new opportunities the area heat transportation. rising requirements to enhance efficiency compact exchangers can be achieved by using various nanofluids. In this article, thermal output Maxwell and Williamson nanofluids transport over a prolonging sheet with bioconvection self‐motivated organisms is scrutinized. A magnetic flux porous effects medium influence flow fluids. fundamental principles for conservation mass,...
The purpose and novelty of our study include the scrutinization unsteady flow heat characteristics Sutterby nano-fluid across an elongated cone using slip boundary conditions. bioconvection gyrotactic micro-organisms, Cattaneo-Christov, thermal radiative fluxes with magnetic fields are significant physical aspects study. Anisotropic constraints on surface taken into account. leading formulation is transmuted ordinary differential formate via similarity functions. Five coupled equations...