Oscillatory flow in two immiscible fluids with heat and mass transfer under a chemical reaction in a horizontal channel
By: Sivakami, L
.
Contributor(s): Balasowandari, P.
Publisher: Prayagraj Pushpa Publishing House 2022Edition: Vol.27, Jun.Description: 57-76p.Subject(s): Mechanical EngineeringOnline resources: Click here
In:
JP journal of heat and mass transferSummary: This paper deals with the combined effects of magnetohydrodynamics free convective two immiscible fluid flows over a horizontal channel in the occurrence of heat and mass transfer and the chemical response for the event of time-dependent oscillatory transpiration velocity.
The formation and the solution of non-linear equations of heat and mass transfer are dealt analytically and solved numerically with the suitable boundary conditions for every fluid. The governing equations of the flow were rewritten into standard differential equations and solved by a regular perturbation method. The expressions for the concentration, velocity and heat for every fluid movement are obtained. The effects of various constraints like Schmidt number, Grashof number for heat and mass transfer, Prandtl number, etc. on the velocity, concentration and temperature fields have been graphically discussed.
| Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|
Articles Abstract Database
|
School of Engineering & Technology Archieval Section | Not for loan | 2023-0472 |
This paper deals with the combined effects of magnetohydrodynamics free convective two immiscible fluid flows over a horizontal channel in the occurrence of heat and mass transfer and the chemical response for the event of time-dependent oscillatory transpiration velocity.
The formation and the solution of non-linear equations of heat and mass transfer are dealt analytically and solved numerically with the suitable boundary conditions for every fluid. The governing equations of the flow were rewritten into standard differential equations and solved by a regular perturbation method. The expressions for the concentration, velocity and heat for every fluid movement are obtained. The effects of various constraints like Schmidt number, Grashof number for heat and mass transfer, Prandtl number, etc. on the velocity, concentration and temperature fields have been graphically discussed.
Click on an image to view it in the image viewer
There are no comments for this item.