Research Journal of Science and Technology

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

On Triply Diffusive Convection Analogous to Stern Type with Variable Viscosity


Affiliations
1 Department of Mathematics and Statistics, Himachal Pradesh University, Shimla, India
2 J.N. Government Engineering College, Sunder Nagar (H.P.), India
     

   Subscribe/Renew Journal


The paper mathematically establishes that triply diffusive convection (analogous to Stern type), with variable viscosity and with one of the components as heat, cannot manifest itself as oscillatory motions of growing amplitude in an initially bottom heavy configuration if the thermal Rayleigh number |R|, the Lewis number τ2 for the second concentration component , μmin (the minimum value of viscosity μ in the closed interval [0,1]) and the Prandtl number σ satisfy the inequality |R| ≤ 27π4/4 τ2min + 1/σ) provided D2μ is positive everywhere. It is further proved that this result is uniformly valid for the quite general nature of the bounding surfaces.

Keywords

Triply Diffusive Convection, Variable Viscosity, Concentration Rayleigh Number, Oscillatory Motion, Initially Bottom Heavy Configuration.
Subscription Login to verify subscription
User
Notifications
Font Size


Abstract Views: 155

PDF Views: 1




  • On Triply Diffusive Convection Analogous to Stern Type with Variable Viscosity

Abstract Views: 155  |  PDF Views: 1

Authors

Jyoti Prakash
Department of Mathematics and Statistics, Himachal Pradesh University, Shimla, India
Rajeev Kumar
Department of Mathematics and Statistics, Himachal Pradesh University, Shimla, India
Prakash Chopra
J.N. Government Engineering College, Sunder Nagar (H.P.), India

Abstract


The paper mathematically establishes that triply diffusive convection (analogous to Stern type), with variable viscosity and with one of the components as heat, cannot manifest itself as oscillatory motions of growing amplitude in an initially bottom heavy configuration if the thermal Rayleigh number |R|, the Lewis number τ2 for the second concentration component , μmin (the minimum value of viscosity μ in the closed interval [0,1]) and the Prandtl number σ satisfy the inequality |R| ≤ 27π4/4 τ2min + 1/σ) provided D2μ is positive everywhere. It is further proved that this result is uniformly valid for the quite general nature of the bounding surfaces.

Keywords


Triply Diffusive Convection, Variable Viscosity, Concentration Rayleigh Number, Oscillatory Motion, Initially Bottom Heavy Configuration.