Research Journal of Engineering and Technology

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Upper Limits to the Linear Growth Rate in Triply Diffusive Convection


Affiliations
1 Department of Mathematics and Statistics, Himachal Pradesh University, Summer Hill, Shimla-171005, India
     

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In the present paper it is mathematically established that the linear growth rate of an arbitrary neutral or unstable oscillatory perturbation of growing amplitude in a triply diffusive fluid layer (with one of the component as heat with diffusivity κ) must lie inside a semicircle in the right half of the (Pr, Pi􀀅) - plane whose centre is at the origin and radius equals 􀀇√(|R􀀉| + R1􀀋)􀀌 where R and R1 are the thermal Rayleigh number and concentration Rayleigh number with diffusivities κ and κ_1. Further, it is proved that this result is uniformly valid for quite general nature of the bounding surfaces.

Keywords

Triply Diffusive Convection, Oscillatory Motions, Complex Growth Rate, Concentration Rayleigh Number.
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  • Upper Limits to the Linear Growth Rate in Triply Diffusive Convection

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Authors

Jyoti Prakash
Department of Mathematics and Statistics, Himachal Pradesh University, Summer Hill, Shimla-171005, India
Renu Bala
Department of Mathematics and Statistics, Himachal Pradesh University, Summer Hill, Shimla-171005, India
Kultaran Kumari
Department of Mathematics and Statistics, Himachal Pradesh University, Summer Hill, Shimla-171005, India

Abstract


In the present paper it is mathematically established that the linear growth rate of an arbitrary neutral or unstable oscillatory perturbation of growing amplitude in a triply diffusive fluid layer (with one of the component as heat with diffusivity κ) must lie inside a semicircle in the right half of the (Pr, Pi􀀅) - plane whose centre is at the origin and radius equals 􀀇√(|R􀀉| + R1􀀋)􀀌 where R and R1 are the thermal Rayleigh number and concentration Rayleigh number with diffusivities κ and κ_1. Further, it is proved that this result is uniformly valid for quite general nature of the bounding surfaces.

Keywords


Triply Diffusive Convection, Oscillatory Motions, Complex Growth Rate, Concentration Rayleigh Number.