The current analysis discusses Jeffery nanofluid’s thermally radiative flow with convection over a stretching wedge. It takes into account the Brownian movement and thermophoresis of the Buongiorno nanofluid model. The guiding partial differential equations (PDEs) are modified by introducing the symmetry variables, leading to non-dimensional ordinary differential equations (ODEs). To solve the generated ODEs, the MATLAB function bvp4c is implemented. Examined are the impacts of different flow variables on the rate of transmission of heat transfer (HT), temperature, mass, velocity, and nanoparticle concentration (NC). It has been noted that the velocity and mass transfer were increased by the pressure gradient factor. Additionally, the therm...
AbstractWe have studied three dimensional second grade nanofluid flow with effects of thermal radiat...
Two-dimensional MHD mixed convection boundary layer flow of heat and mass transfer stagnation-point ...
A numerical study is carried out to study the effects of variable fluid properties on the boundary l...
Buoyancy-driven (“Falkner-Skan”) mixed convection flow of a nanofluid from a nonisothermal wedge has...
The problem of steady, laminar, mixed convection boundary-layer flow over an isothermal vertical wed...
The Buongiorno model is used in the study which takes into account the effects of Brownian motion a...
In this investigation, the influence of the prominent viscous dissipation effect on mixed convection...
The problem of steady, laminar, mixed convection boundary-layer flow over an isothermal vertical wed...
Present paper utilizes a combination of non-Newtonian fluid model (Jeffrey fluid) with Buongiorno mo...
Magnetohydrodynamic mixed convection boundary layer flow of heat and mass transfer stagnation-point ...
Present paper utilizes a combination of non-Newtonian fluid model (Jeffrey fluid) with Buongiorno m...
In this paper, the mixed convective heat transfer mechanism of nanofluids is investigated. Based on ...
The present communication particularizes nonlinear convective non-Newtonian stagnation point flow an...
A numerical study is carried out to study the effects of variable fluid properties on the boundary l...
We have studied three dimensional second grade nanofluid flow with effects of thermal radiation and ...
AbstractWe have studied three dimensional second grade nanofluid flow with effects of thermal radiat...
Two-dimensional MHD mixed convection boundary layer flow of heat and mass transfer stagnation-point ...
A numerical study is carried out to study the effects of variable fluid properties on the boundary l...
Buoyancy-driven (“Falkner-Skan”) mixed convection flow of a nanofluid from a nonisothermal wedge has...
The problem of steady, laminar, mixed convection boundary-layer flow over an isothermal vertical wed...
The Buongiorno model is used in the study which takes into account the effects of Brownian motion a...
In this investigation, the influence of the prominent viscous dissipation effect on mixed convection...
The problem of steady, laminar, mixed convection boundary-layer flow over an isothermal vertical wed...
Present paper utilizes a combination of non-Newtonian fluid model (Jeffrey fluid) with Buongiorno mo...
Magnetohydrodynamic mixed convection boundary layer flow of heat and mass transfer stagnation-point ...
Present paper utilizes a combination of non-Newtonian fluid model (Jeffrey fluid) with Buongiorno m...
In this paper, the mixed convective heat transfer mechanism of nanofluids is investigated. Based on ...
The present communication particularizes nonlinear convective non-Newtonian stagnation point flow an...
A numerical study is carried out to study the effects of variable fluid properties on the boundary l...
We have studied three dimensional second grade nanofluid flow with effects of thermal radiation and ...
AbstractWe have studied three dimensional second grade nanofluid flow with effects of thermal radiat...
Two-dimensional MHD mixed convection boundary layer flow of heat and mass transfer stagnation-point ...
A numerical study is carried out to study the effects of variable fluid properties on the boundary l...