Dynamical System Analysis of Thermal Convection in a Horizontal Layer of Nanofluids Heated from Below

J. M. Jawdat; I. Hashim; S. Momani

doi:10.1155/2012/128943

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Dynamical System Analysis of Thermal Convection in a Horizontal Layer of Nanofluids Heated from Below

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Dynamical System Analysis of Thermal Convection in a Horizontal Layer of Nanofluids Heated from Below

J. M. Jawdat, I. Hashim and S. Momani

Mathematical problems in engineering, Vol.2012, pp.1-13

01/01/2012

DOI: https://doi.org/10.1155/2012/128943

Abstract

The effect of nanofluids on chaotic convection in a fluid layer heated from below was studied in this paper for low Prandtl number based on the theory of dynamical systems. A low-dimensional, Lorenz-like model was obtained using Galerkin-truncated approximations. The fourth-order Runge-Kutta method was employed to solve the nonlinear system. The results show that inhibition of chaotic convection can be observed when using nanofluids.

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Title: Dynamical System Analysis of Thermal Convection in a Horizontal Layer of Nanofluids Heated from Below
Creators - without role: J. M. Jawdat - National University of Malaysia
I. Hashim - National University of Malaysia
S. Momani - University of Jordan
Publication Details: Mathematical problems in engineering, Vol.2012, pp.1-13
Identifiers: 9934265708331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Journal article