Auswahl der wissenschaftlichen Literatur zum Thema „Darcy-Lapwood-Brinkman equation“
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Zeitschriftenartikel zum Thema "Darcy-Lapwood-Brinkman equation":
Merabet, N., H. Siyyam und M. H. Hamdan. „Analytical approach to the Darcy–Lapwood–Brinkman equation“. Applied Mathematics and Computation 196, Nr. 2 (März 2008): 679–85. http://dx.doi.org/10.1016/j.amc.2007.07.003.
Silva, Roberto, English English, Español Español, Español Español und Español Español. „Mhpm Solution to Mhd Fluid Flow Through Porous Medium with an Exponentially Variable Permeability“. ACI Avances en Ciencias e Ingenierías 13, Nr. 2 (05.11.2021): 24. http://dx.doi.org/10.18272/aci.v13i2.2259.
Djordjevic, V. D. „Circular Couette Flow between Porous Cylinders“. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 219, Nr. 8 (01.08.2005): 743–47. http://dx.doi.org/10.1243/095440605x31580.
Nalinakshi, N., P. A. Dinesh, I. S. Shivakumara und D. V. Chandrashekar. „Numerical Solution for Mixed Convection Heat Transfer from a Vertical Heated Plate Embedded in a Sparsely Packed Porous Medium“. Mapana - Journal of Sciences 10, Nr. 2 (25.11.2011): 37–52. http://dx.doi.org/10.12723/mjs.19.4.
Shivakumara, I. S., C. E. Nanjundappa und M. Ravisha. „Effect of Boundary Conditions on the Onset of Thermomagnetic Convection in a Ferrofluid Saturated Porous Medium“. Journal of Heat Transfer 131, Nr. 10 (28.07.2009). http://dx.doi.org/10.1115/1.3160540.
Dissertationen zum Thema "Darcy-Lapwood-Brinkman equation":
Fahs, Amin. „Modeling of naturel convection in porous media : development of semi-analytical and spectral numerical solutions of heat transfer problem in special domains“. Thesis, Strasbourg, 2021. https://publication-theses.unistra.fr/restreint/theses_doctorat/2021/Fahs_Amin_2021_ED269.pdf.
The problem of the porous square cavity is extensively used as a common benchmark case for Natural convection (NC) problem in porous media. It can be used for several numerical, theoretical, and practical purposes. All the existing high accurate solutions are developed under steady-state conditions. However, it is well known that the processes of NC in porous media occurs naturally in a time-dependent procedure, as boundary conditions can be variable in time. Also, the convergence of the steady-state solution is known to be difficult. To overcome this difficulty, the steady-state solution is often simulated as a transient solution that evolves until reaching the steady-state condition. These time-dependent modes are very efficient to detect the effects of the parameter variations on the physical process of NC, especially for the subject of interest in this thesis: the domain inclination level and hot wall temperature variation in time. For this purpose, three goals are identified in this Thesis: 1. Developing a time-dependent solution of natural convection in porous media using the Darcy model in two modes: Transient and unsteady. 2. Investigating the time-dependent behavior of natural convection in porous media having the domain inclination level as a variable parameter in two modes: Transient and unsteady. 3. Developing a time-dependent solution of natural convection in porous media using the Darcy-Lapwood-Brinkman model in two modes: Transient and unsteady. To do so, according to the high accuracy in the simply connected domains, one of the Galerkin spectral weighted residual method is chosen to develop a space-time dependent solution for NC problem in a square porous cavity. Applying the Fourier-Galerkin (FG) procedure, two configurations dealing with transient and unsteady regimes are considered where each solution is derived for a wide range of Rayleigh numbers with other special conditions. This work of thesis is explained in details as five chapters.The NC physical process with the time-dependent variations is described in the transient mode to reach the steady-state solution and for the unsteady mode during a one period using periodic sinusoidal boundary conditions on the cavity hot wall. Finally, the work of this thesis is described in details in five chapters; while the sixth and last chapter is devoted to the summary and conclusion.The results in this thesis work provide a set of high-accurate data that are published in three papers to be used for testing numerical codes of heat transfer in time-dependent configurations
Konferenzberichte zum Thema "Darcy-Lapwood-Brinkman equation":
Hachem, Houda, Ramla Gheith und Fethi Aloui. „Numerical Investigating of Oscillatory Flow and Heat Transfer Through Stirling Regenerator“. In ASME 2021 Fluids Engineering Division Summer Meeting. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/fedsm2021-65624.