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Numerical analysis of heat and mass transfer in a vertical channel with multiple slip effect
https://orcid.org/http://orcid.org/0000-0002-6619-7462
The current study deals with the impact of multiple slips effect on immiscible micro polar and viscous fluids in a vertical channel. The non-linear governing equations of the flow for heat and mass transfer are solved by using a very efficient numerical scheme of Runge–Kutta 6th order method using Mathematica software with ND Solve. The influence of the multiple slip parameters, pertinent parameters on dimensionless quantities such as velocity, temperature, concentration is analysed and represented graphically and also the effects on rate of heat and mass transfer numbers at the boundaries are shown in tabular form. The effect of velocity slip parameter is analysed and observed that with the increase of the velocity slip parameter, the velocity of the fluid decreases, and the angular velocity increases. Also, with an increase of thermal slip parameter velocity decrease and temperature and angular velocity rises. On the other hand, With the rise of Grashof number, the velocity falls, contrasting the temperature and angular velocity increase. Graphical results demonstrate that the flow variables satisfy the imposed boundary and interface conditions.
Numerical analysis of heat and mass transfer in a vertical channel with multiple slip effect
https://orcid.org/http://orcid.org/0000-0002-6619-7462
The current study deals with the impact of multiple slips effect on immiscible micro polar and viscous fluids in a vertical channel. The non-linear governing equations of the flow for heat and mass transfer are solved by using a very efficient numerical scheme of Runge–Kutta 6th order method using Mathematica software with ND Solve. The influence of the multiple slip parameters, pertinent parameters on dimensionless quantities such as velocity, temperature, concentration is analysed and represented graphically and also the effects on rate of heat and mass transfer numbers at the boundaries are shown in tabular form. The effect of velocity slip parameter is analysed and observed that with the increase of the velocity slip parameter, the velocity of the fluid decreases, and the angular velocity increases. Also, with an increase of thermal slip parameter velocity decrease and temperature and angular velocity rises. On the other hand, With the rise of Grashof number, the velocity falls, contrasting the temperature and angular velocity increase. Graphical results demonstrate that the flow variables satisfy the imposed boundary and interface conditions.
Numerical analysis of heat and mass transfer in a vertical channel with multiple slip effect
https://orcid.org/http://orcid.org/0000-0002-6619-7462
The current study deals with the impact of multiple slips effect on immiscible micro polar and viscous fluids in a vertical channel. The non-linear governing equations of the flow for heat and mass transfer are solved by using a very efficient numerical scheme of Runge–Kutta 6th order method using Mathematica software with ND Solve. The influence of the multiple slip parameters, pertinent parameters on dimensionless quantities such as velocity, temperature, concentration is analysed and represented graphically and also the effects on rate of heat and mass transfer numbers at the boundaries are shown in tabular form. The effect of velocity slip parameter is analysed and observed that with the increase of the velocity slip parameter, the velocity of the fluid decreases, and the angular velocity increases. Also, with an increase of thermal slip parameter velocity decrease and temperature and angular velocity rises. On the other hand, With the rise of Grashof number, the velocity falls, contrasting the temperature and angular velocity increase. Graphical results demonstrate that the flow variables satisfy the imposed boundary and interface conditions.
Numerical analysis of heat and mass transfer in a vertical channel with multiple slip effect
Int J Interact Des Manuf
Cheruku, Vasavi (Autor:in) / Reddy, B. Ravindra (Autor:in)
01.07.2024
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Numerical analysis of heat and mass transfer in a vertical channel with multiple slip effect
| Springer Verlag | 2024