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Chemical Engineering Communications Volume 134, 1995 - Issue 1
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Original Articles

THE EFFECT OF A MAGNETIC FIELD ON NATURAL CONVECTION IN A SHALLOW CAVITY HEATED FROM BELOW

S. ALCHAAR Ecole Poiytechnique, University of Montreal, C.P. 6079 Succ. Centre Ville, Montreal, P.Q, H3C 3A7, Canada
,
P. VASSEUR Ecole Poiytechnique, University of Montreal, C.P. 6079 Succ. Centre Ville, Montreal, P.Q, H3C 3A7, Canada
&
E. BILGEN Ecole Poiytechnique, University of Montreal, C.P. 6079 Succ. Centre Ville, Montreal, P.Q, H3C 3A7, Canada
Pages 195-209 | Received 17 Jun 1994, Accepted 16 Aug 1994, Published online: 06 Apr 2007

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Bisma Akram, Naeem Ullah, Sohail Nadeem & Sayed M. Eldin. (2023) Simulations for MHD mixed convection in a partially heated lid-driven chamfered enclosure. Numerical Heat Transfer, Part A: Applications 0:0, pages 1-21.
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Rabah Bouchair, Abderrahim Bourouis & Abdeslam Omara. (2022) Conjugate MHD natural convection in a square cavity with a non-uniform heat source thick solid partition. International Journal for Computational Methods in Engineering Science and Mechanics 23:5, pages 396-411.
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Articles from other publishers (32)

Bengisen Pekmen Geridonmez. (2024) Modeling of Average Nusselt Number by Machine Learning and Interpolation Techniques. ASME Journal of Heat and Mass Transfer 146:4.
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Pankaj Choudhary & Rajendra K. Ray. (2024) MHD natural convection flow in a porous medium-filled corrugated enclosure: Effect of heat sources with different heights. International Journal of Thermal Sciences 196, pages 108673.
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Κyriaki-Evangelia Aslani, Lefteris Benos & Ioannis E. Sarris. 2024. Advanced Materials-Based Fluids for Thermal Systems. Advanced Materials-Based Fluids for Thermal Systems 311 338 .
T. Makayssi, M. Lamsaadi, M. Kaddiri & Y. Tizakast. (2023) Effect of an ascendant magnetic field on Rayleigh–Bénard convection for non-Newtonian power-law fluids in a horizontal rectangular cavity submitted to vertical temperature gradient. The European Physical Journal Plus 138:7.
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Pankaj Barman, D. Srinivasachrya & Dipak Barman. (2023) Linear and nonlinear stability analyses of double-diffusive convection in a porous layer due to magnetic field and throughflow effects. The European Physical Journal Plus 138:3.
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Qing-Bo Chen & Hang Xu. (2022) Coiflet wavelet-homotopy solution of free convection in a closed cavity subjected to an inclined external magnetic field. Mathematics and Computers in Simulation 191, pages 288-308.
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T. Makayssi, M. Lamsaadi & M. Kaddiri. (2021) Numerical study of magnetic field effect on natural convection heat and mass transfers in a square enclosure containing non-Newtonian fluid and submitted to horizontal temperature and concentration gradients. The European Physical Journal Plus 136:10.
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Bengisen Pekmen Geridonmez & Hakan F. Oztop. (2021) Natural convection in an open ended nanofluid filled cavity with fins in the presence of partial magnetic field and thermal radiation. Mathematical Methods in the Applied Sciences 44:8, pages 6931-6949.
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T. Ahmed, S. Hassan, M. F. Hasan, M. M. Molla, M. A. Taher & S. C. Saha. (2021) Lattice Boltzmann Simulation of Magnetic Field Effect on Electrically Conducting Fluid at Inclined Angles in Rayleigh-B閚ard Convection. Energy Engineering 118:1, pages 15-36.
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Taasnim Ahmed Himika, Sheikh Hassan, Md. Farhad Hasan & Md. Mamun Molla. (2020) Lattice Boltzmann Simulation of MHD Rayleigh–Bénard Convection in Porous Media. Arabian Journal for Science and Engineering 45:11, pages 9527-9547.
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N. Deepika, P. V. S. N. Murthy & P. A. L. Narayana. (2020) The Effect of Magnetic Field on the Stability of Double-Diffusive Convection in a Porous Layer with Horizontal Mass Throughflow. Transport in Porous Media 134:2, pages 435-452.
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Minakshi Poonia. (2020) Computational study on MHD power-law fluid in tilted enclosure having sinusoidal heated sidewall. Multidiscipline Modeling in Materials and Structures 16:5, pages 1041-1059.
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B. Pekmen Geridonmez & Hakan F. Oztop. (2020) Natural convection in a cavity under partial magnetic field applied from different corners. International Communications in Heat and Mass Transfer 114, pages 104575.
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Narendra Laxman Gajbhiye & Vinayak Eswaran. (2019) Effect of radial magnetic field on the natural convection in a semi-circular curved enclosure for different aspect ratios. Sādhanā 44:4.
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Mubbashar NazeerN. AliTariq Javed. (2018) Numerical simulation of MHD flow of micropolar fluid inside a porous inclined cavity with uniform and non-uniform heated bottom wall. Canadian Journal of Physics 96:6, pages 576-593.
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Andrey V. Kuznetsov & Ivan A. Kuznetsov. 2018. Handbook of Thermal Science and Engineering. Handbook of Thermal Science and Engineering 603 645 .
Carlos Frederico Trotta Matt, João Nazareno Nonato Quaresma & Renato Machado Cotta. (2017) Analysis of magnetohydrodynamic natural convection in closed cavities through integral transforms. International Journal of Heat and Mass Transfer 113, pages 502-513.
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A. V. Kuznetsov & I. A. Kuznetsov. 2017. Handbook of Thermal Science and Engineering. Handbook of Thermal Science and Engineering 1 43 .
Changwei Jiang, Er Shi, Zhangmao Hu, Xianfeng Zhu & Nan Xie. (2015) Numerical simulation of thermomagnetic convection of air in a porous square enclosure under a magnetic quadrupole field using LTNE models. International Journal of Heat and Mass Transfer 91, pages 98-109.
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N.S. Bondareva, M. A. Sheremet & I. Pop. (2015) Magnetic field effect on the unsteady natural convection in a right-angle trapezoidal cavity filled with a nanofluid. International Journal of Numerical Methods for Heat & Fluid Flow 25:8, pages 1924-1946.
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Narendra Laxman Gajbhiye & Vinayak Eswaran. (2015) Numerical simulation of MHD flow and heat transfer in a rectangular and smoothly constricted enclosure. International Journal of Heat and Mass Transfer 83, pages 441-449.
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Awatef Naffouti, Brahim Ben-Beya & Taieb Lili. (2014) Three-dimensional Rayleigh–Bénard magnetoconvection: Effect of the direction of the magnetic field on heat transfer and flow patterns. Comptes Rendus. Mécanique 342:12, pages 714-725.
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B. Pekmen & M. Tezer-Sezgin. (2014) MHD flow and heat transfer in a lid-driven porous enclosure. Computers & Fluids 89, pages 191-199.
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A. A. Altawallbeh, N. H. Saeid & I. Hashim. (2015) Magnetic Field Effect on Natural Convection in a Porous Cavity Heating from below and Salting from Side. Advances in Mechanical Engineering 5, pages 183079.
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Tanmay Basak, R. Anandalakshmi & Praveen Gunda. (2012) Role of entropy generation during convective thermal processing in right-angled triangular enclosures with various wall heatings. Chemical Engineering Research and Design 90:11, pages 1779-1799.
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C. Revnic, T. Grosan, I. Pop & D.B. Ingham. (2011) Magnetic field effect on the unsteady free convection flow in a square cavity filled with a porous medium with a constant heat generation. International Journal of Heat and Mass Transfer 54:9-10, pages 1734-1742.
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Atef El Jery, Nejib Hidouri, Mourad Magherbi & Ammar Ben Brahim. (2010) Effect of an External Oriented Magnetic Field on Entropy Generation in Natural Convection. Entropy 12:6, pages 1391-1417.
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M C Ece & E Büyük. (2016) The effect of an external magnetic field on natural convection in an inclined rectangular enclosure. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 221:12, pages 1609-1622.
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Mehmet Cem Ece & Elif Büyük. (2007) Natural convection flow under a magnetic field in an inclined square enclosure differentialy heated on adjacent walls. Meccanica 42:5, pages 435-449.
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Mehmet Cem Ece & Elif Büyük. (2006) Natural-convection flow under a magnetic field in an inclined rectangular enclosure heated and cooled on adjacent walls. Fluid Dynamics Research 38:8, pages 564-590.
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E.r.g Eckert, R.J Goldstein, W.e Ibele, S.V Patankar, T.W Simon, P.J Strykowski, K.K Tamma, T.H Kuehn, A Bar-Cohen, J.V.R Heberlein, J.H Davidson, J Bischof, F Kulacki & U Kortshagen. (1999) Heat transfer—a review of 1995 literature. International Journal of Heat and Mass Transfer 42:15, pages 2717-2797.
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N.M. Al‐Najem, K.M. Khanafer & M.M. El‐Refaee. (1998) Numerical study of laminar natural convection in tilted enclosure with transverse magnetic field. International Journal of Numerical Methods for Heat & Fluid Flow 8:6, pages 651-672.
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