Journal ArticleDOI
Heat transfer and natural convection of nanofluids in porous media
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TLDR
In this article, the role of the nanofluid properties in the cooling performance of the medium and in the relevant heat process is thoroughly investigated using the Darcy-Brinkman and energy transport equations.Abstract:
Natural convection of a nanofluid in a square cavity filled with a porous matrix is numerically investigated using a meshless technique. The Darcy–Brinkman and the energy transport equations are used to describe the nanofluid flow and the heat transfer process in the porous medium as these are generated by heating one of the cavity walls. The role of the nanofluid properties in the cooling performance of the medium and in the relevant heat process is thoroughly investigated. Numerical results are obtained for the stream function, the temperature profile, and the Nusselt number over a wide range of dimensionless quantities (Rayleigh number between 105 and 107, Darcy number between 10−5 and 10−3). The effect of the porous medium in the cooling efficiency of the nanofluidic system is also discussed. Alternative expressions are suggested for the estimation of the effective conductivity and the thermal expansion coefficient of the nanofluid and their effects on the heat transfer problem are investigated. Excellent agreement with experimental data and trends as well as with previously published numerical results for less complicated systems was found.read more
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Journal ArticleDOI
Recent advances in modeling and simulation of nanofluid flows—Part II: Applications
Omid Mahian,Omid Mahian,Omid Mahian,Lioua Kolsi,Mohammad Amani,Patrice Estellé,Goodarz Ahmadi,Clement Kleinstreuer,Jeffrey S. Marshall,Robert A. Taylor,Eiyad Abu-Nada,Saman Rashidi,Hamid Niazmand,Somchai Wongwises,Somchai Wongwises,Tasawar Hayat,Tasawar Hayat,Alibakhsh Kasaeian,Ioan Pop +18 more
TL;DR: In this paper, the authors present a review of the main computational methods for solving the transport equations associated with nanofluid flow, including finite difference, finite volume, finite element, lattice Boltzmann methods, and Lagrangian methods.
Journal ArticleDOI
Nanofluid flow and heat transfer in porous media: A review of the latest developments
Alibakhsh Kasaeian,Reza Daneshazarian,Omid Mahian,Lioua Kolsi,Ali J. Chamkha,Somchai Wongwises,Ioan Pop +6 more
TL;DR: In this paper, a comprehensive review is conducted on the simultaneous application of nanofluids and porous media for heat transfer enhancement purposes in thermal systems with different structures, flow regimes, and boundary conditions.
Journal ArticleDOI
Convective heat transfer flow of nanofluid in a porous medium over wavy surface
TL;DR: In this paper, water base nanofluid flow over a wavy surface in a porous medium of spherical packing beds is investigated, and the results illustrate that convection heat transfer is improved by nanoparticles concentration but reduces when fluid attract to porous walls.
Journal ArticleDOI
Entropy generation and MHD natural convection of a nanofluid in an inclined square porous cavity: Effects of a heat sink and source size and location
TL;DR: In this paper, the effects of a heat sink and the source size and location on the entropy generation, MHD natural convection flow and heat transfer in an inclined porous enclosure filled with a Cu-water nanofluid are investigated numerically.
Journal ArticleDOI
Conjugate heat transfer and entropy generation in a cavity filled with a nanofluid-saturated porous media and heated by a triangular solid
TL;DR: In this paper, the authors investigated the entropy generation due to conjugate natural convection-conduction heat transfer in a square domain under steady-state condition, and the results showed that both the average Nusselt number and entropy generation are increasing functions of K ro while they are maxima at some critical values of D.
References
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