Effect of Variable Thermal Conductivity Models on the Combined Convection Heat Transfer in a Square Enclosure Filled with a Water-Alumina Nanofluid
A. Ghafouri, M. Salari, A. F. Jozaei
Islamic Azad University, Ahvaz, Iran
Keywords: наножидкость, интенсификация теплообмена, квадратная ячейка, уравнение теплопроводности, nanofluid, heat transfer enhancement, square enclosure, thermal conductivity model
Abstract
In this numerical study, the effects of variable thermal conductivity models on the combined convection heat transfer in a two-dimensional lid-driven square enclosure are investigated. The fluid in the square enclosure is a water-based nanofluid containing alumina nanoparticles. The top and bottom horizontal walls are insulated, while the vertical walls are kept at different constant temperatures. Five different thermal conductivity models are used to evaluate the effects of various parameters, such as the nanofluid bulk temperature, nanoparticle size, nanoparticle volume fraction, Brownian motion, interfacial layer thickness, etc. The governing stream-vorticity equations are solved by using a second-order central finite difference scheme coupled with the conservation of mass and energy. It is found that higher heat transfer is predicted when the effects of the nanoparticle size and bulk temperature of the nanofluid are taken into account.
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