\nfor one dimensional transient radiative transfer equations with

\nconduction using finite volume method. Within the infrastructure of

\nfinite-volume, we obtain the conservative discretization of the terms

\nin order to preserve the overall conservative property of finitevolume

\nschemes. Coupling of conductive and radiative equation

\nresulting in fluxes is governed by the magnitude of emissivity,

\nextinction coefficient, and temperature of the medium as well as

\ngeometry of the problem.

\nThe problem under consideration has been solved, for a slab

\ndominating radiation coupled with transient conduction based on

\nfinite volume method. The boundary conditions are also chosen so as

\nto give a good model of the discretized form of radiation transfer

\nequation. The important feature of the present method is flexibility in

\nspecifying the control angles in the FVM, while keeping the

\nsimplicity in the solution procedure.

\nEffects of various model parameters are examined on the

\ndistributions of temperature, radiative and conductive heat fluxes and

\nincident radiation energy etc. The finite volume method is considered

\nto effectively evaluate the propagation of radiation intensity through

\na participating medium.", "descriptionType": "Abstract" }, { "description": "{\"references\": [\"M.F. Modest.,\\\" Radiative equilibrium in a rectangular enclosure\\nbounded by gray walls\\\", JQSRT, Vol. 15,1975, pp. 445-461\", \"M.M. Raszaque, D.E. Klein and J.R. Howell, \\\"Finite element solution\\nof radiative heat transfer in a two-dimensional rectangular enclosure\\nwith gray particrpating media\\\", Journal of Heat Transfer, Vol.\\n105,1983, pp. 933-936\", \"W.A. Fiveland , \\\"Discrete-ordinates solutions of the radrative\\ntransport equation for rectangular enclosures\\\", Journal of Heat\\nTransfer, Vol. 106, 1984, pp. 699-706\", \"L.H. Liu, \\\"Least-squares finite element method for radiative heat\\ntransfer ingraded index medium\\\", J. Quant. Spectrosc. Radiative\\nTransfer,Vol.103, 2007,pp.536\\u2013544\", \"J.N. Reddy, D.K. Gartling, \\\"The Finite Element Method in Heat\\nTransfer and Fluid Dynamics\\\", second ed., CRC Press, Boca Raton, FL,\\n2001\", \"V. Pareek, S. Chong , M. Tade, A.A. Adesina, \\\"Light intensity\\ndistribution in heterogenous photocatalytic reactors\\\", Asia-Pacific,\\nJournal of Chemical Engineering, Vol. 3 (2),2008,pp.171\\u2013201\", \"J.E.Duran , F. Taghipour, M. Mohseni, \\\"Irradiance modeling in annular\\nphotoreactors using the finite-volume method\\\", Journal of\\nPhotochemistry and Photobiology A: Chemistry,Vol. 215\\n(1),2010,pp.81\\u201389\", \"S.Elyasi, F. Taghipour, \\\"Simulation of UV photoreactor for degradation\\nof chemical contaminants: model development and evaluation\\\"\\nEnvironmental Science & Technology, Vol.44 (6), 2010, pp.2056\\u20132063.\", \"G.D. Raithby, E.H. Chui E.H.,\\\" A finite-volume method for predicting a\\nradiant heat transfer in enclosures with participating media\\\", J.Heat\\nTransfer,Vol-112, 1990,pp. 415\\u2013423\\n[10] E.H. Chui ,G.D. Raithby, and P.M.J. Hughes, \\\"Prediction of Radiative\\nTransfer in Cylindrical Enclosures with the Finite Volume Method \\\",\\nJournal of Thermo physics and Heat Transfer,Vol.6,No.4,1992, pp.605-\\n611\\n[11] E.H. Chui,and G.D. Raithby ,\\\"Computation of Radiant Heat Transfer on\\na Nonorthogonal Mesh Using the Finite-Volume Method\\\",\\nNumericalHeatTransfer,Vol.23,1993, pp.269-288\\n[12] G.D. Raithby , E.H. Chui, \\\"A finite-volume method for predicting a\\nradiant heat transfer in enclosures with participating media\\\", Journal of\\nHeat Transfer, Vol.112, 1990,pp.415\\u2013423\\n[13] J.C. Chai, S.V. Patankar, \\\"Finite volume method for radiation heat\\ntransfer\\\", Adv. Numer. Heat Transfer, Vol.2, 2000,pp.110\\u2013135\\n[14] W.A. Fiveland, \\\"Three-dimensional radiative e heat-transfer solutions by\\nthe discrete-ordinates method\\\", J. Thermophys. Heat Transfer,Vol.2,\\n1988,pp.309\\u2013316\\n[15] M.N. Borjini, C. Mbow,M. Daguenet,\\\" Numerical analysis of combined\\nradiation and unsteady natural convection within a horizontal annular\\nspace\\\", Int. J. Numer. Methods Heat Fluid Flow ,Vol.9 ,1999,pp.742\\u2013\\n764\\n[16] C.Y. Han, S.W. Baek , \\\"The effects of radiation on natural convection in\\na rectangular enclosure divided by two partitions\\\", Numer. Heat\\nTransfer Vol. 37A, 2000, pp. 249\\u2013270.\\n[17] J. C. Chai, \\\"One-dimensional transient radiation heat transfer modeling\\nusing a finite-volume method,\\\" Numer. Heat Transf., vol-44, pp.187-\\n208, 2003.\"]}", "descriptionType": "Other" } ], "geoLocations": [], "fundingReferences": [], "relatedIdentifiers": [ { "relationType": "IsVersionOf", "relatedIdentifier": "10.5281/zenodo.1123543", "relatedIdentifierType": "DOI" } ], "schemaVersion": "http://datacite.org/schema/kernel-4", "providerId": "cern", "clientId": "cern.zenodo", "agency": "datacite", "state": "findable" }