. .. Radiative-power-field,

, Radiation effects on temperature using classical adimensionalization

, A novel adimensionalization for the mean temperature field to correct variable density effects, p.114

, Radiation effects on temperature using the new scaling

.. .. Conclusions,

A. Baïri, Thermal design of tilted electronic assembly with active QFN16 package subjected to natural convection, International Communications in Heat and Mass Transfer, vol.66, pp.240-245, 2015.

H. Bhowmik and K. Tou, Experimental study of transient natural convection heat transfer from simulated electronic chips, Experimental Thermal and Fluid Science, vol.29, pp.485-492, 2005.

H. F. Öztop, P. Estellé, W. Yan, K. Al-salem, J. Orfi et al., A brief review of natural convection in enclosures under localized heating with and without nanofluids, International Communications in Heat and Mass Transfer, vol.60, pp.37-44, 2015.

J. O. Juárez, J. F. Hinojosa, J. P. Xamán, and M. P. Tello, Numerical study of natural convection in an open cavity considering temperature-dependent fluid properties, International Journal of Thermal Sciences, vol.50, pp.2184-2197, 2011.

M. J. Suárez, C. Sanjuan, A. J. Gutiérrez, J. Pistono, and E. Blanco, Energy evaluation of an horizontal open joint ventilated façade, Applied Thermal Engineering, vol.37, pp.302-313, 2012.

J. Xamán, J. Tun, G. Álvarez, Y. Chavez, and F. Noh, Optimum ventilation based on the overall ventilation e?ec-tiveness for temperature distribution in ventilated cavities, International Journal of Thermal Sciences, vol.48, pp.1574-1585, 2009.

A. Baïri, Transient natural 2D convection in a cylindrical cavity with the upper face cooled by thermoelectric peltier e?ect following an exponential law, Applied Thermal Engineering, vol.23, pp.431-447, 2003.

D. Edwards and I. Catton, Prediction of heat transfer by natural convection in closed cylinders heated from below, International Journal of Heat and Mass Transfer, vol.12, pp.23-30, 1969.

D. Huang and S. Hsieh, Analysis of natural convection in a cylindrical enclosure, Numerical Heat Transfer, Part A: Applications, vol.12, pp.121-135, 1987.

T. Basak, S. Roy, and C. Thirumalesha, Finite element analysis of natural convection in a triangular enclosure: e?ects of various thermal boundary conditions, Chemical Engineering Science, vol.62, pp.2623-2640, 2007.

V. A. Akinsete and T. Coleman, Heat transfer by steady laminar free convection in triangular enclosures, International Journal of Heat and Mass Transfer, vol.25, pp.991-998, 1982.

Y. E. Karyakin, Y. A. Sokovishin, and O. Martynenko, Transient natural convection in triangular enclosures, International Journal of Heat and Mass Transfer, vol.31, pp.1759-1766, 1988.

Y. Shiina, K. Fujimura, T. Kunugi, and N. Akino, Natural convection in a hemispherical enclosure heated from below, International Journal of Heat and Mass Transfer, vol.37, pp.1605-1617, 1994.

A. Baïri and J. G. De-maría, Numerical and experimental study of steady state free convection generated by constant heat flux in tilted hemispherical cavities, International Journal of Heat and Mass Transfer, vol.66, pp.355-365, 2013.

G. De-vahl, I. Davis, and . Jones, Natural convection in a square cavity: a comparison exercise, International Journal for Numerical Methods in Fluids, vol.3, pp.227-248, 1983.

T. Saitoh and K. Hirose, High-accuracy bench mark solutions to natural convection in a square cavity, Computational Mechanics, vol.4, pp.417-427, 1989.

M. Hortmann, M. Peri?, and G. Scheuerer, Finite volume multigrid prediction of laminar natural convection: Benchmark solutions, International Journal for Numerical Methods in Fluids, vol.11, pp.189-207, 1990.

G. Huelsz and R. Rechtman, Heat transfer due to natural convection in an inclined square cavity using the lattice boltzmann equation method, International Journal of Thermal Sciences, vol.65, pp.111-119, 2013.

M. Leal, J. Pérez-guerrero, and R. Cotta, Natural convection inside two-dimensional cavities: the integral transform method, Communications in Numerical Methods in Engineering, vol.15, pp.113-125, 1999.

A. Baïri, E. Zarco-pernia, and J. G. De-maría, A review on natural convection in enclosures for engineering applications. the particular case of the parallelogrammic diode cavity, Applied Thermal Engineering, vol.63, pp.304-322, 2014.

A. K. Hussein, M. M. Awad, L. Kolsi, F. Fathinia, and I. Adegun, A comprehensive review of transient natural convection flow in enclosures, Journal of Basic and Applied Scientific Research, vol.4, pp.17-27, 2014.

J. Patterson and J. Imberger, Unsteady natural convection in a rectangular cavity, Journal of Fluid Mechanics, vol.100, pp.65-86, 1980.

J. M. Hyun and J. W. Lee, Numerical solutions for transient natural convection in a square cavity with di?erent sidewall temperatures, International Journal of Heat and Fluid Flow, vol.10, pp.146-151, 1989.

B. K. Satya-sai, K. Seetharamu, and P. Narayana, Solution of transient laminar natural convection in a square cavity by an explicit finite element scheme, Numerical Heat Transfer, vol.25, pp.593-609, 1994.

M. A. Christon, P. M. Gresho, and S. B. Sutton, Computational predictability of time-dependent natural convection flows in enclosures (including a benchmark solution), International Journal for Numerical Methods in Fluids, vol.40, pp.953-980, 2002.

J. Samanes, J. García-barberena, and F. Zaversky, Modeling solar cavity receivers: a review and comparison of natural convection heat loss correlations, Energy Procedia, vol.69, pp.543-552, 2015.

P. L. Quéré, C. Weisman, H. Paillère, J. Vierendeels, E. Dick et al., Modelling of natural convection flows with large temperature di?erences: a benchmark problem for low mach number solvers, ESAIM: Mathematical Modelling and Numerical Analysis, vol.39, pp.609-616, 2005.

D. D. Gray and A. Giorgini, The validity of the boussinesq approximation for liquids and gases, International Journal of Heat and Mass Transfer, vol.19, pp.545-551, 1976.

L. Spradley and S. Churchill, Pressure-and buoyancy-driven thermal convection in a rectangular enclosure, Journal of Fluid Mechanics, vol.70, pp.705-720, 1975.

Z. Zhong, K. Yang, and J. Lloyd, Variable property e?ects in laminar natural convection in a square enclosure, Journal of Heat Transfer, vol.107, pp.133-138, 1985.

S. Sehyun, Y. I. Cho, W. K. Gringrich, and W. Shyy, Numerical study of laminar heat transfer with temperature dependent fluid viscosity in a 2:1 rectangular duct, International Journal of Heat and Mass Transfer, vol.36, pp.4365-4373, 1993.

C. Xie and J. Hartnett, Influence of variable viscosity of mineral oil on laminar heat transfer in a 2:1 rectangular duct, International Journal of Heat and Mass Transfer, vol.35, pp.641-648, 1992.

M. Leal, H. Machado, and R. Cotta, Integral transform solutions of transient natural convection in enclosures with variable fluid properties, International Journal of Heat and Mass Transfer, vol.43, pp.3977-3990, 2000.

H. Sun, G. Lauriat, D. Sun, and W. Tao, Transient double-di?usive convection in an enclosure with large density variations, International Journal of Heat and Mass Transfer, vol.53, pp.615-625, 2010.

L. Quéré, Accurate solutions to the square di?erentially heated cavity at high rayleigh number, Computers & Fluids, vol.20, p.2941, 1991.

E. W. Lemmon, R. T. Jacobsen, S. G. Penoncello, and D. G. Friend, Thermodynamic properties of air and mixtures of nitrogen, argon, and oxygen from 60 to 2000 k at pressures to 2000 mpa, Journal of physical and chemical reference data, vol.29, issue.3, pp.331-385, 2000.

S. Paolucci, Filtering of sound from the navier-stokes equations

H. Paillere, C. Viozat, A. Kumbaro, and I. Toumi, Comparison of low mach number models for natural convection problems, Heat and mass transfer, vol.36, pp.567-573, 2000.

S. Patankar, Numerical heat transfer and fluid flow, p.28, 1980.

H. K. Versteeg and W. Malalasekera, An introduction to computational fluid dynamics: the finite volume method, Pearson Education, 2007.

F. H. Harlow and J. E. Welch, Numerical calculation of time-dependent viscous incompressible flow of fluid with free surface, The Physics of Fluids, vol.8, p.2182, 1965.

S. V. Patankar and D. B. Spalding, A calculation procedure for heat, mass and momentum transfer in threedimensional parabolic flows, International journal of heat and mass transfer, vol.15, issue.10, pp.1787-1806, 1972.

R. Becker, M. Braack, and R. Rannacher, Numerical simulation of laminar flames at low Mach number by adaptive finite elements, 1999.

F. U. Guide, Finite element analysis toolbox

R. Becker and M. Braack, Solution of a stationary benchmark problem for natural convection with large temperature di?erence, International journal of thermal sciences, vol.41, issue.5, pp.428-439, 2002.

J. Vierendeels, K. Riemslagh, and E. Dick, A multigrid semi-implicit line-method for viscous incompressible and low-mach-number flows on high aspect ratio grids, Journal of Computational Physics, vol.154, issue.2, pp.310-341, 1999.

P. L. Quéré, R. Masson, and P. Perrot, A chebyshev collocation algorithm for 2d non-boussinesq convection, Journal of computational physics, vol.103, issue.2, pp.320-335, 1992.

E. Graham, Numerical simulation of two-dimensional compressible convection, Journal of Fluid Mechanics, vol.70, pp.689-703, 1975.

M. Akiyama and Q. Chong, Numerical analysis of natural convection with surface radiation in a square enclosure, Numerical Heat Transfer, Part A Applications, vol.32, issue.4, pp.419-433, 1997.

F. Ampofo and T. Karayiannis, Experimental benchmark data for turbulent natural convection in an air filled square cavity, International Journal of Heat and Mass Transfer, vol.46, issue.19, pp.3551-3572, 2003.

M. Behnia, J. Reizes, and G. De-vahl-davis, Combined radiation and natural convection in a rectangular cavity with a transparent wall and containing a non-participating fluid, International Journal for Numerical Methods in Fluids, vol.10, issue.3, pp.305-325, 1990.

P. Betts and I. Bokhari, Experiments on turbulent natural convection in an enclosed tall cavity, International Journal of Heat and Fluid Flow, vol.21, issue.6, pp.675-683, 2000.

S. Churchill, Free convection in layers and enclosures, vol.2, 1983.

G. Colomer, M. Costa, R. Consul, and A. Oliva, Three-dimensional numerical simulation of convection and radiation in a differentially heated cavity using the discrete ordinates method, International Journal of Heat and Mass Transfer, vol.47, issue.2, pp.257-269, 2004.

G. De-vahl-davis and I. Jones, Natural convection in a square cavity: a comparison exercise, International Journal for numerical methods in fluids, vol.3, issue.3, pp.227-248, 1983.

W. Fiveland, Discrete-ordinates solution of the radiative transport equation for rectangular enclosures, Journal of Heat Transfer, vol.106, pp.699-706, 1984.

W. Fiveland, Three-dimensional radiative heat-transfer solutions by the discrete-ordinates method, Journal of Thermophysics and Heat Transfer, vol.2, issue.4, pp.309-316, 1988.

T. Fusegi and B. Farouk, Laminar and turbulent natural convection-radiation interactions in a square enclosure filled with a nongray gas, Numerical Heat Transfer, vol.15, issue.3, pp.303-322, 1989.

K. Lari, S. A. Baneshi, S. A. Nassab, A. Komiya, and S. Maruyama, Combined heat transfer of radiation and natural convection in a square cavity containing participant gases, International journal of heat and mass transfer, vol.54, pp.5087-5099, 2011.

F. Moufekkir, M. A. Moussauoui, A. Mezrhad, H. Naji, and D. Lemonnier, Numerical prediction of heat transfer by natural convection and radiation in an enclosure filled with an isotropic scattering medium, Journal of quantitative spectroscopy & radiative transfer, vol.113, pp.1689-1704, 2012.

S. Patankar, Numerical heat transfer and fluid flow, 1980.

T. Saitoh and K. Hirose, High-accuracy bench mark solutions to natural convection in a square cavity, Computational Mechanics, vol.4, issue.6, pp.417-427, 1989.

J. Salat, S. Xin, P. Joubert, A. Sergent, F. Penot et al., Experimental and numerical investigation of turbulent natural convection in a large air-filled cavity, International Journal of Heat and Fluid Flow, vol.25, issue.5, pp.824-832, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00132458

A. K. Sharma, K. Velusamy, C. Balaji, and S. Venkateshan, Conjugate turbulent natural convection with surface radiation in air filled rectangular enclosures, International journal of heat and mass transfer, vol.50, issue.3, pp.625-639, 2007.

Z. Tan, Combined radiative and conductive heat transfer in two-dimensional emitting, absorbing and anisotropic scattering square media, vol.16, pp.391-401, 1989.

Z. Tan, Radiative heat transfer in multidimensional emitting, absorbing, and anisotropic scattering media-mathematical formulation and numerical method, Journal of heat transfer, vol.111, issue.1, pp.141-147, 1989.

Z. Tan and J. R. Howell, Combined radiation and natural convection in a two-dimensional participating square medium, International journal of heat and mass transfer, vol.34, issue.3, pp.785-793, 1991.

C. P. Thurgood, A. Pollard, and H. A. Becker, The tn quadrature set for the discrete ordinates method, Journal of Heat Transfer, vol.117, pp.1068-1070, 1995.

Y. Tian and T. Karayiannis, Low turbulence natural convection in an air filled square cavity: part i: the thermal and fluid flow fields, International Journal of Heat and Mass Transfer, vol.43, issue.6, pp.849-866, 2000.

C. Upson, P. Gresho, and R. Lee, Finite element simulations of thermally induced convection in an enclosed cavity, 1980.

K. Velusamy, T. Sundararajan, and K. Seetharamu, Interaction effects between surface radiation and turbulent natural convection in square and rectangular enclosures, Journal of heat transfer, vol.123, issue.6, pp.1062-1070, 2001.

H. K. Versteeg and W. Malalasekera, An introduction to computational fluid dynamics: the finite volume method. Pearson Education, 2007.

H. Wang, S. Xin, and P. Le-quéré, Étude numérique du couplage de la convection naturelle avec le rayonnement de surfaces en cavité carrée remplie d'air, Comptes Rendus Mécanique, vol.334, issue.1, pp.48-57, 2006.

S. Yin, T. Wung, and K. Chen, Natural convection in an air layer enclosed within rectangular cavities, International Journal of Heat and Mass Transfer, vol.21, issue.3, pp.307-315, 1978.

A. Yucel, S. Acharya, and M. L. Williams, Natural convection and radiation in a square enclosure, vol.15, pp.261-278, 1989.

S. N. Abadi, A. Ahmadpour, S. Abadi, and J. P. Meyer, Cfd-based shape optimization of steam turbine blade cascade in transonic two phase flows, Applied Thermal Engineering, vol.112, pp.1575-1589, 2017.

G. N. Abramovich, The theory of turbulent jets, p.74, 1963.

R. Antonia, L. Browne, A. Chambers, and S. Rajagopalan, Budget of the temperature variance in a turbulent plane jet, International Journal of Heat and Mass Transfer, vol.26, issue.1, p.153, 1983.

J. Armengol, F. Bannwart, J. Xamán, and R. Santos, Effects of variable air properties on transient natural convection for large temperature differences, International Journal of Thermal Sciences, vol.120, pp.63-79, 2017.

A. Atoufi, M. Fathali, and B. Lessani, Compressibility effects and turbulent kinetic energy exchange in temporal mixing layers, Journal of Turbulence, vol.16, issue.7, p.183, 2015.

T. Badinand and T. Fransson, Improvement of the finite volume method for coupled flow and radiation calculations by the use of two grids and rotational periodic interface, ICHMT DIGITAL LIBRARY ONLINE, p.48, 2001.

R. Becker and M. Braack, Solution of a stationary benchmark problem for natural convection with large temperature difference, International journal of thermal sciences, vol.41, issue.5, p.33, 2002.

R. Becker, M. Braack, and R. Rannacher, Numerical simulation of laminar flames at low Mach number by adaptive finite elements. Taylor & Francis, p.33, 1999.

S. Berger, S. Richard, F. Duchaine, G. Staffelbach, L. Gicquel et al., Turbulence and energy budget in a selfpreserving round jet: direct evaluation using large eddy simulation, 120, 121) Bogey, vol.103, p.181, 2009.

L. Bradbury, The structure of a self-preserving turbulent plane jet, Journal of Fluid Mechanics, vol.23, issue.01, p.151, 1965.

L. Browne, R. Antonia, S. Rajagopalan, and A. Chambers, Turbulence radiation interaction modeling in hydrocarbon pool fire simulations, StrucReferences ture of complex turbulent shear flow, vol.88, p.87, 1983.

M. Castela, B. Fiorina, A. Coussement, O. Gicquel, N. Darabiha et al., Modelling the impact of non-equilibrium discharges on reactive mixtures for simulations of plasma-assisted ignition in turbulent flows, Combustion and Flame, vol.166, p.83, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01513660

J. Caudal, Simulation numérique du reformage autothermique du méthane, p.6, 2013.

P. Chassaing, R. Antonia, F. Anselmet, L. Joly, and S. Sarkar, Variable density fluid turbulence, vol.69, p.181, 2013.

C. J. Chen and W. Rodi, Vertical turbulent buoyant jets: a review of experimental data, Nasa STI/Recon Technical Report A, vol.80, p.85, 1980.

Y. Choi and C. L. Merkle, The application of preconditioning in viscous flows, Journal of Computational Physics, vol.105, issue.2, p.8, 1993.

P. Coelho, Detailed numerical simulation of radiative transfer in a nonluminous turbulent jet diffusion flame, Combustion and flame, vol.136, issue.4, p.121, 2004.

P. J. Coelho, Numerical simulation of the interaction between turbulence and radiation in reactive flows, Progress in Energy and Combustion Science, vol.33, issue.4, p.98, 2007.

P. J. Coelho, A general closure model for the time-averaged radiative transfer equation in turbulent flows, 14th International Heat Transfer Conference, p.54, 2010.

P. J. Coelho, Assessment of a presumed joint pdf for the simulation of turbulence-radiation interaction in turbulent reactive flows, Applied Thermal Engineering, vol.49, p.54, 2012.

A. Coussement, Direct numerical simulation and reduced chemical schemes for combustion of perfect and real gases, Ecole Centrale des Arts et Manufactures (ECP), 2012.

A. Coussement, O. Gicquel, J. Caudal, B. Fiorina, and G. Degrez, , 2012.

, Three-dimensional boundary conditions for numerical simulations of reactive compressible flows with complex thermochemistry, Journal of computational physics, vol.231, issue.17, p.10

A. Coussement, O. Gicquel, and G. Degrez, Large eddy simulation of a pulsed jet in cross-flow, Journal of fluid mechanics, vol.695, p.186, 2012.

C. B. Da-silva, I. Malico, and P. J. Coelho, Radiation statistics in homogeneous isotropic turbulence, New Journal of Physics, vol.11, issue.9, p.233, 2009.

D. L. Darmofal and P. Schmid, The importance of eigenvectors for local preconditioners of the euler equations, Journal of Computational Physics, vol.127, issue.2, p.8, 1996.

A. Davies, J. Keffer, and W. Baines, Spread of a heated plane turbulent jet. The physics of fluids, vol.18, p.153, 1975.

G. De-vahl-davis and I. Jones, Natural convection in a square cavity: a comparison exercise, International Journal for Numerical Methods in Fluids, vol.3, p.33, 1983.

R. C. Deo, J. Mi, and G. J. Nathan, The influence of nozzle-exit geometric profile on statistical properties of a turbulent plane jet, Experimental Thermal and Fluid Science, vol.32, issue.2, p.74, 2007.

R. C. Deo, J. Mi, and G. J. Nathan, The influence of reynolds number on a plane jet, Physics of Fluids, vol.20, issue.7, p.74, 2008.

K. Deshmukh, M. Modest, and D. Haworth, Direct numerical simulation of turbulence-radiation interactions in a statistically one-dimensional nonpremixed system, Journal of Quantitative spectroscopy and Radiative transfer, vol.109, issue.14, pp.2391-2400, 2008.

K. V. Deshmukh, D. C. Haworth-;-dos-santos, R. G. , M. Lecanu, S. Ducruix et al., Higher-order spherical harmonics to model radiation in direct numerical simulation of turbulent reacting flows, Computational Thermal Sciences: An International Journal, vol.1, issue.2, pp.387-400, 2008.

, European comission long term strategy, EC, 2018.

D. Edwards, Molecular gas band radiation, Advances in heat transfer, vol.12, p.xx, 1976.

, United nations framework convention on climate change, EEA, 2015.

, European parlament, EP, 2018.

K. F. Evans, The spherical harmonics discrete ordinate method for three-dimensional atmospheric radiative transfer, Journal of the Atmospheric Sciences, vol.55, issue.3, p.43, 1998.

G. Faeth, J. Gore, and S. Jeng, Spectral and total radiation properties of turbulent carbon monoxide/air diffusion flames, AIAA journal, vol.25, issue.2, pp.339-345, 1987.

W. Fiveland, Discrete-ordinates solutions of the radiative transport equation for rectangular enclosures, Journal of heat transfer, vol.106, issue.4, p.43, 1984.

H. Foysi, J. P. Mellado, S. Sarkar-;-fraga, G. , F. Centeno et al., Evaluation and optimization-based modification of a model for the mean radiative emission in a turbulent non-reactive flow, International Journal of Heat and References Fluid Flow, vol.31, issue.3, p.144, 2010.

D. Gaitonde and M. Visbal, Further development of a navier-stokes solution procedure based on higher-order formulas, 37th Aerospace Sciences Meeting and Exhibit, vol.75, p.83, 1999.

R. R. Gamache, R. L. Hawkins, and L. S. Rothman, Total internal partition sums in the temperature range 70-3000 k: atmospheric linear molecules, Journal of molecular spectroscopy, vol.142, issue.2, p.47, 1990.

D. Garmann and M. Visbal, Dynamics of revolving wings for various aspect ratios, Journal of Fluid Mechanics, vol.748, p.83, 2014.

E. Garnier, N. Adams, and P. Sagaut, Large eddy simulation for compressible flows, p.180, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01313539

S. Ghosh and R. Friedrich, Effects of radiative heat transfer on the turbulence structure in inert and reacting mixing layers, Physics of Fluids, vol.27, issue.5, p.135, 2015.

S. Ghosh, R. Friedrich, M. Pfitzner, C. Stemmer, B. Cuenot et al., Effects of radiative heat transfer on the structure of turbulent supersonic channel flow, Journal of Fluid Mechanics, vol.677, p.46, 1975.
URL : https://hal.archives-ouvertes.fr/hal-01712147

J. Gore, U. Ip, and Y. Sivathanu, Coupled structure and radiation analysis of acetylene/air flames, Journal of Heat Transfer, vol.114, p.53, 1992.

A. Gruber, J. H. Chen, D. Valiev, and C. K. Law, Direct numerical simulation of premixed flame boundary layer flashback in turbulent channel flow, Journal of Fluid Mechanics, vol.709, p.83, 2012.

F. U. Guide, Finite element analysis toolbox, British Energy, p.33, 1997.

A. Gupta, D. Haworth, and M. Modest, Turbulence-radiation interactions in large-eddy simulations of luminous and nonluminous nonpremixed flames, Proceedings of the Combustion Institute, vol.34, issue.1, p.121, 2013.

A. Gupta, M. F. Modest, and D. C. Haworth, Large-eddy simulation of turbulence-radiation interactions in a turbulent planar channel flow, Journal of Heat Transfer, vol.131, issue.6, p.61704, 2009.

E. Gutmark and I. Wygnanski, The planar turbulent jet, Journal of Fluid Mechanics, vol.73, issue.03, p.150, 1976.

F. H. Harlow and J. E. Welch, Numerical calculation of time-12, p.26, 1965.

G. Hedstrom, Nonreflecting boundary conditions for nonlinear hyperbolic systems, Journal of computational Physics, vol.30, issue.2, p.187, 1979.

R. Henkes and C. Hoogendoorn, Comparison exercise for computations of turbulent natural convection in enclosures, Numerical Heat Transfer, vol.28, issue.1, p.20, 1995.

G. Heskestad, Hot-wire measurements in a plane turbulent jet, Journal of Applied Mechanics, vol.32, issue.4, p.74, 1965.

K. Heyerichs and A. Pollard, Heat transfer in separated and impinging turbulent flows, International Journal of Heat and Mass Transfer, vol.39, issue.12, p.63, 1996.

M. Hortmann, M. Peri?, and G. Scheuerer, Finite volume multigrid prediction of laminar natural convection: Bench-mark solutions, International Journal for Numerical Methods in Fluids, vol.11, p.33, 1990.

J. R. Howell, The monte carlo method in radiative heat transfer, Journal of Heat Transfer, vol.120, issue.3, p.43, 1998.

P. Huang, G. Coleman, and P. Bradshaw, Compressible turbulent channel flows: Dns results and modelling, Journal of Fluid Mechanics, vol.305, p.173, 1995.

, Key world energy statistics 2017, International Energy Agency, 2017.

, International energy agency, IEA, 2018.

H. J. Jang, S. Y. Kang, J. J. Lee, T. S. Kim, and S. J. Park, Performance analysis of a multi-stage ultra-supercritical steam turbine using computational fluid dynamics, Applied Thermal Engineering, vol.87, p.66, 2015.

P. Jenkins and V. Goldschmidt, Mean temperature and velocity in a plane turbulent jet, Journal of Fluids Engineering, vol.95, issue.4, p.153, 1973.

S. Joe and F. Y. Kuo, Constructing sobol sequences with better twodimensional projections, SIAM Journal on Scientific Computing, vol.30, issue.5, p.44, 2008.

W. Jones and B. Launder, The prediction of laminarization with a two-equation model of turbulence, International journal of heat and mass transfer, vol.15, issue.2, p.20, 1972.

W. Jones and M. Paul, Combination of DOM with LES in a gas turbine combustor, International journal of engineering science, vol.43, issue.5-6, p.121, 2005.

V. Kabashnikov, Thermal radiation of turbulent flows in the case of large fluctuations of the absorption coefficient and the planck function, Journal of engineering physics, vol.49, issue.1, p.52, 1985.

V. Kabashnikov and G. Kmit, Influence of turbulent fluctuations on thermal radiation, Journal of Applied Spectroscopy, vol.31, issue.2, p.52, 1979.

C. A. Kennedy and M. H. Carpenter, Several new numerical methods for compressible shear-layer simulations, Applied Numerical Mathematics, vol.14, issue.4, p.75, 1994.

M. Klein, A. Sadiki, and J. Janicka, Investigation of the influence of the reynolds number on a plane jet using direct numerical simulation, International Journal of Heat and Fluid Flow, vol.24, issue.6, p.148, 2003.

A. Kolmogorov, Equations of motion of an incompressible turbulent fluid, Izv Akad Nauk SSSR Ser Phys, vol.6, p.21, 1942.

A. N. Kolmogorov, The local structure of turbulence in incompressible viscous fluid for very large reynolds numbers, Dokl. Akad. Nauk SSSR, vol.30, p.5, 1941.

C. Koren, Modélisation des transferts de chaleur couplés pour la simulation multi-physique des chambres de combustion, p.44, 2016.

C. Koren, R. Vicquelin, and O. Gicquel, Multiphysics simulation combining large-eddy simulation, wall heat conduction and radiative energy transfer to predict wall temperature induced by a confined premixed swirling flame, Flow, Turbulence and Combustion, vol.101, issue.1, pp.77-102, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01744260

F. Kritzstein and A. Soufiani, Infrared gas radiation from a homogeneously turbulent medium, International journal of heat and mass transfer, vol.36, issue.7, p.121, 1993.

K. Lari, M. Baneshi, S. G. Nassab, A. Komiya, and S. Maruyama, Combined heat transfer of radiation and natural convection in a square cavity containing participating gases, International Journal of Heat and Mass Transfer, vol.54, p.44, 2011.

B. Launder, B. Sharma-;-launder, B. E. , G. J. Reece, and W. Rodi, Application of the energy-dissipation model of turbulence to the calculation of flow near a spinning disc, Letters in heat and mass transfer, vol.1, issue.2, p.19, 1974.

L. Quéré, P. , R. Masson, and P. Perrot, A chebyshev collocation algorithm for 2d non-boussinesq convection, Journal of computational physics, vol.103, issue.2, p.33, 1992.

L. Quéré, P. , C. Weisman, H. Paillère, J. Vierendeels et al., Modelling of natural convection flows with large temperature differences: a benchmark problem for low mach number solvers. part 1. reference solutions, ESAIM: Mathematical Modelling and Numerical Analysis, vol.39, p.237, 2005.

L. Ribault, C. , S. Sarkar, and S. Stanley, Large eddy simulation of a plane jet, Physics of Fluids, vol.11, issue.10, p.79, 1999.

C. Lemieux, , 2008.

M. Carlo and Q. Sampling, , p.44

G. Lemieux and P. Oosthuizen, Experimental study of the behavior of plane turbulent jets at low reynolds numbers, AIAA journal, vol.23, issue.12, p.71, 1985.

E. Lemmon, M. Mclinden, and D. Friend, Thermophysical properties of fluid systems. NIST chemistry webbook, NIST standard reference database 69, p.62, 2005.

B. Leonard, Simple high-accuracy resolution program for convective modelling of discontinuities, International Journal for Numerical Methods in Fluids, vol.8, issue.10, p.25, 1988.

G. Li and M. F. Modest, Application of composition pdf methods in the investigation of turbulence-radiation interactions, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.73, issue.2, p.53, 2002.

G. Li and M. F. Modest, Importance of turbulence-radiation interactions in turbulent diffusion jet flames, Journal of heat transfer, vol.125, issue.5, p.121, 2003.

F. Lien and M. Leschziner, Upstream monotonic interpolation for scalar transport with application to complex turbulent flows, International Journal for Numerical Methods in Fluids, vol.19, issue.6, p.25, 1994.

C. Liu and Z. Liu, High order finite difference and multigrid methods for spatially evolving instability in a planar channel, Journal of Computational Physics, vol.106, issue.1, p.8, 1993.

G. Lodato, P. Domingo, and L. Vervisch, Three-dimensional boundary conditions for direct and large-eddy simulation of compressible viscous flows, Journal of Computational Physics, vol.227, issue.10, p.13, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01672195

M. P. Martin, U. Piomelli, and G. V. Candler, Subgrid-scale models for compressible large-eddy simulations, Theoretical and Computational Fluid Dynamics, vol.13, issue.5, p.180, 2000.

S. Mazumder and M. F. Modest, Turbulence-radiation interactions in nonreactive flow of combustion gases, Transactions-American Society of Mechanical Engineers Journal of Heat Transfer, vol.121, p.144, 1999.

R. Mehta, D. Haworth, and M. Modest, Composition pdf/photon monte carlo modeling of moderately sooting turbulent jet flames, Combustion and Flame, vol.157, issue.5, p.55, 2010.

R. Mehta and M. Modest, Modeling absorption tri in optically thick eddies, Proceedings of Eurotherm seminar, vol.78, p.54, 2006.

R. S. Mehta, M. F. Modest, and D. C. Haworth, Radiation charReferences acteristics and turbulence-radiation interactions in sooting turbulent jet flames, Combustion Theory and Modelling, vol.14, issue.1, p.55, 2010.

C. Mendoza, C. Salinas, J. Armengol, R. Beicker, and R. Santos, Numerical investigation of heat transfer by natural convection and radiation in a cavity with participating media, Proceedings of ENCIT Conference Paper, pp.1-9, 2016.

P. Mignon, Etude théorique du couplage convection turbulente rayonnement dans un écoulement de gaz dans un canal. Thermodégradation de la paroi, p.53, 1992.

M. F. Modest and D. C. Haworth, Radiative Heat Transfer in Turbulent Combustion Systems: Theory and Applications, p.98, 2016.

F. Moufekkir, M. Moussaoui, A. Mezrhab, H. Naji, and D. Lemonnier, Numerical prediction of heat transfer by natural convection and radiation in an enclosure filled with an isotropic scattering medium, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.113, issue.13, p.44, 2012.

V. Moureau, P. Domingo, and L. Vervisch, Design of a massively parallel cfd code for complex geometries, Comptes Rendus Mécanique, vol.339, issue.2-3, pp.141-148, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01672172

D. Naot and W. Rodi, Calculation of secondary currents in channel flow, Journal of the Hydraulics Division, vol.108, issue.8, p.19, 1982.

P. O'rourke and F. Bracco, Two scaling transformations for the numerical computation of multidimensional unsteady laminar flames, Journal of Computational Physics, vol.33, issue.2, p.9, 1979.

L. Palluotto, N. Dumont, P. Rodrigues, C. Koren, R. Vicquelin et al., Comparison of monte carlo methods efficiency to solve radiative energy transfer in high fidelity unsteady 3d simulations, ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, p.44, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01781014

T. Passot and A. Pouquet, Numerical simulation of compressible homogeneous flows in the turbulent regime, Journal of Fluid Mechanics, vol.181, p.76, 1987.

S. Patankar, Numerical heat transfer and fluid flow, p.30, 1980.

S. V. Patankar and D. B. Spalding, A calculation procedure for heat, mass and momentum transfer in three-dimensional parabolic flows, Numerical Prediction of Flow, Heat Transfer, Turbulence and Combustion, p.27, 1983.

D. W. Peaceman, H. H. Rachford, and J. , The numerical solution of parabolic and elliptic differential equations, Journal of the Society for industrial and Applied Mathematics, vol.3, issue.1, p.30, 1955.

S. Peng and L. Davidson, Computation of turbulent buoyant flows in enclosures with low-reynolds-number k-! models, International Journal of heat and fluid flow, vol.20, issue.2, p.22, 1999.

C. Pérez-segarra, A. Oliva, M. Costa, and F. Escanes, Numerical experiments in turbulent natural and mixed convection in internal flows, International Journal of Numerical Methods for Heat & Fluid Flow, vol.5, issue.1, p.20, 1995.

T. Poinsot and D. Veynante, Theoretical and numerical combustion, vol.184, p.185, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00270731

T. J. Poinsot and S. Lele, Boundary conditions for direct simulations of compressible viscous flows, Journal of computational physics, vol.101, issue.1, p.75, 1992.

D. Poitou, J. Amaya, M. E. Hafi, and B. Cuenot, Analysis of the interaction between turbulent combustion and thermal radiation using unsteady coupled les/dom simulations, Combustion and Flame, vol.159, issue.4, pp.1605-1618, 2012.

S. B. Pope, Pdf methods for turbulent reactive flows, Progress in Energy and Combustion Science, vol.11, issue.2, p.54, 1985.

S. B. Pope and S. B. Pope, Ten questions concerning the large-eddy simulation of turbulent flows, New journal of Physics, vol.74, issue.1, p.185, 2001.

N. Rajaratnam, Turbulent jets, vol.74, p.78, 1976.

B. Ramaprian and M. Chandrasekhara, LDA measurements in plane turbulent jets, Journal of Fluids Engineering, vol.107, issue.2, p.151, 1985.

J. Ramshaw, P. O'rourke, and L. Stein, Pressure gradient scaling method for fluid flow with nearly uniform pressure, Journal of Computational Physics, vol.58, issue.3, p.9, 1985.

L. Raynal, M. J.-l.-harion, G. Favre-marinet, and . Binder, The oscillatory instability of plane variable-density jets, Physics of Fluids, vol.8, issue.4, p.85, 1996.

S. Refahi, Development of a radiative transfer code and its coupling with a les code, Theses, p.44, 2013.
URL : https://hal.archives-ouvertes.fr/tel-00832350

T. Ren, M. F. Modest, and S. Roy, Monte carlo simulation for radiative transfer in a high-pressure industrial gas turbine combustion chamber, Journal of Engineering for Gas Turbines and Power, vol.140, issue.5, p.121, 2018.

C. D. Richards and W. M. Pitts, Global density effects on the selfpreservation behaviour of turbulent free jets, Journal of Fluid Mechanics, vol.254, p.90, 1993.

L. F. Richardson, Weather Prediction by Numerical Process, p.5, 1922.

P. Rivière and A. Soufiani, Updated band model parameters for h2o, co2, ch4 and co radiation at high temperature, International Journal of Heat and Mass Transfer, vol.55, p.47, 2012.

P. Riviere, A. Soufiani, and J. Taine, Correlated-k and fictitious gas methods for h2o near 2.7 µm, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.48, issue.2, p.46, 1992.

W. Rodi, Turbulence models and their application in hydraulics, p.22, 1993.

P. Rodrigues, Modélisation multiphysique de flammes turbulentes suitées avec la prise en compte des transferts radiatifs et des transferts de chaleur pariétaux, vol.45, p.46, 2018.

P. Rodrigues, O. Gicquel, N. Darabiha, K. Geigle, and R. Vicquelin, Assessment of external heat transfer modeling of a laboratoryscale combustor: Effects of pressure-housing environment and semitransparent viewing windows, Journal of Engineering for Gas Turbines and Power, vol.141, issue.3, p.31011, 2019.

P. L. Roe, Some contributions to the modelling of discontinuous flows, Large-scale computations in fluid mechanics, p.25, 1985.

M. Roger, P. Coelho, and C. Silva, Relevance of the subgridscales for large eddy simulations of turbulence-radiation interactions in a turbulent plane jet, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.112, issue.7, pp.1250-1256, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02061679

M. Roger, P. J. Coelho, and C. B. Da-silva, The influence of the nonresolved scales of thermal radiation in large eddy simulation of turbulent flows: A fundamental study, International Journal of Heat and Mass Transfer, vol.53, pp.2897-2907, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02061662

M. Roger, C. B. Da-silva, and P. J. Coelho, Analysis of the turbulence-radiation interactions for large eddy simulations of turbulent flows, International Journal of Heat and Mass Transfer, vol.52, issue.9, pp.2243-2254, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02061649

L. S. Rothman, I. E. Gordon, R. J. Barber, H. Dothe, R. R. Gamache et al., , vol.10, 2010.

, HITEMP, the high-temperature molecular spectroscopic database, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.111, issue.15, p.92

H. Sadeghi, P. Lavoie, and A. Pollard, Equilibrium similarity solution of the turbulent transport equation along the centreline of a round jet, Journal of Fluid Mechanics, vol.772, p.74, 2015.

H. Sadeghi, M. Oberlack, and M. Gauding, On new scaling laws in a temporally evolving turbulent plane jet using lie symmetry analysis and direct numerical simulation, Journal of Fluid Mechanics, vol.854, p.74, 2018.

A. Sakurai, R. Kanbayashi, and K. Matsubara, Radiation effects on turbulent natural convection in optically thick participating fluids using direct numerical simulation, Numerical Heat Transfer, Part A: Applications, vol.72, issue.12, pp.904-920, 2017.

M. Salinas-vázquez, W. Vicente, E. Barrios, E. Martínez, and A. , Palacio, and References

A. Rodríguez, A low-mach number method for the numerical simulation of complex flows, Applied Mathematical Modelling, vol.37, issue.22, p.9, 2013.

H. Shan, L. Jiang, and C. Liu, Direct numerical simulation of flow separation around a naca 0012 airfoil, Computers & Fluids, vol.34, issue.9, p.83, 2005.

S. Silvestri, A. Patel, D. Roekaerts, and R. Pecnik, Turbulence radiation interaction in channel flow with various optical depths, Journal of Fluid Mechanics, vol.834, pp.359-384, 2018.

A. Y. Snegirev, Statistical modeling of thermal radiation transfer in buoyant turbulent diffusion flames, Combustion and Flame, vol.136, issue.1, p.53, 2004.

T. Song and R. Viskanta, Interaction of radiation with turbulenceapplication to a combustion system, Journal of thermophysics and heat transfer, vol.1, issue.1, p.xx, 1987.

L. Soucasse, P. Rivière, and A. Soufiani, Natural convection in a differentially heated cubical cavity under the effects of wall and molecular gas radiation at rayleigh numbers up to 3? 109, International Journal of Heat and Fluid Flow, vol.61, p.121, 2016.

A. Soufiani, P. Mignon, and J. Taine, Radiation-turbulence interaction in channel flows of infrared active gases, Proceedings of the ninth international heat transfer conference, vol.6, p.53, 1990.

A. Soufiani, P. Mignon, and J. Taine, Radiation effects on turbulent heat transfer in channel flows of infrared active gases, Radiation heat transfer: Fundamentals and applications, p.53, 1990.

A. Soufiani and J. Taine, High temperature gas radiative property parameters of statistical narrow-band model for H2O, CO2 and CO, and correlated-k model for H2O and CO2, International journal of heat and mass transfer, vol.40, issue.4, p.92, 1997.

P. Spalart and S. Allmaras, A one-equation turbulence model for aerodynamic flows, 30th aerospace sciences meeting and exhibit, p.19, 1992.

S. Stanley and S. Sarkar, Influence of nozzle conditions and discrete forcing on turbulent planar jets, AIAA journal, vol.38, issue.9, p.78, 2000.

S. Stanley, S. Sarkar, and J. Mellado, A study of the flow-field evolution and mixing in a planar turbulent jet using direct numerical simulation, Journal of Fluid Mechanics, vol.450, p.153, 2002.

J. Taine and A. Soufiani, Gas ir radiative properties: from spectroscopic data to approximate models, Advances in heat transfer, vol.33, p.46, 1999.

T. Tanuma, Advances in Steam Turbines for Modern Power Plants, vol.60, 2017.

O. Terashima, Y. Sakai, and K. Nagata, Simultaneous measurement of velocity and pressure in a plane jet, Experiments in fluids, vol.53, issue.4, p.82, 2012.

L. Tessé, F. Dupoirieux, and J. Taine, Monte carlo modeling of radiative transfer in a turbulent sooty flame, International journal of heat and mass transfer, vol.47, issue.3, pp.555-572, 2004.

F. Thiesset, R. Antonia, and L. Djenidi, Consequences of selfpreservation on the axis of a turbulent round jet, Journal of Fluid Mechanics, p.74, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01660265

F. Thomas and H. Chu, An experimental investigation of the transition of a planar jet: Subharmonic suppression and upstream feedback, Physics of Fluids A: Fluid Dynamics, vol.1, p.150, 1989.

F. Thomas and K. Prakash, An experimental investigation of the natural transition of an untuned planar jet, Physics of Fluids A: Fluid Dynamics, vol.3, issue.1, p.151, 1989.

K. W. Thompson, Time dependent boundary conditions for hyperbolic systems, Journal of computational physics, vol.68, issue.1, p.187, 1987.

M. Thring and M. Newby, Combustion length of enclosed turbulent jet flames, Symposium (International) on Combustion, p.85, 1953.

A. A. Townsend, The structure of turbulent shear flow, p.74, 1956.

E. Turkel, Preconditioned methods for solving the incompressible and low speed compressible equations, Journal of computational physics, vol.72, issue.2, p.8, 1987.

, United nations framework convention on climate change, UNFCCC, 2019.

G. Van-albada, B. Van-leer, W. Roberts-;-van-albada, G. , B. Van-leer et al., A comparative study of computational methods in cosmic gas dynamics, Upwind and HighResolution Schemes, vol.148, p.25, 1982.

B. Van-leer, Towards the ultimate conservative difference scheme iii. upstream-centered finite-difference schemes for ideal compressible flow, Journal of Computational Physics, vol.23, issue.3, p.25, 1977.

B. Van-leer, W. Lee, and P. L. Roe, Characteristic time-stepping or local preconditioning of the euler equations, p.8, 1991.

H. K. Versteeg and W. Malalasekera, An introduction to computational fluid dynamics: the finite volume method. Pearson Education, p.25, 2007.

R. Vicquelin, Y. Zhang, O. Gicquel, and J. Taine, Effects of radiation in turbulent channel flow: analysis of coupled direct numerical simulations, Journal of Fluid Mechanics, vol.753, pp.360-401, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01232488

A. W. Vreman, Direct and large-eddy simulation of the compressible turbulent mixing layer, p.180, 1995.

B. Vreman, B. Geurts, and H. Kuerten, A priori tests of large eddy simulation of the compressible plane mixing layer, Journal of Engineering Mathematics, vol.29, issue.4, p.180, 1995.

A. Wang and M. F. Modest, Photon monte carlo simulation for radiative transfer in gaseous media represented by discrete particle fields, Journal of heat transfer, vol.128, issue.10, p.55, 2006.

A. Wang, M. F. Modest, D. C. Haworth, and L. Wang, Monte carlo simulation of radiative heat transfer and turbulence interactions in methane/air jet flames, Journal of Quantitative Spectroscopy and Radiative Transfer, vol.109, issue.2, p.54, 2008.

W. Wang, H. Zhang, P. Liu, Z. Li, W. Ni et al., A finite element method approach to the temperature distribution in the inner casing of a steam turbine in a combined cycle power plant, Applied Thermal Engineering, vol.105, pp.18-27, 2016.

Y. Wang and A. Trouvé, Artificial acoustic stiffness reduction in fully compressible, direct numerical simulation of combustion, Combustion Theory and Modelling, vol.8, issue.3, p.187, 2004.

D. A. Wilcox, Simulation of transition with a two-equation turbulence model, AIAA journal, vol.32, issue.2, p.22, 1994.

D. C. Wilcox, Turbulence modeling for CFD, vol.2, p.158, 1998.

W. Wróblewski, S. Dykas, and A. Gepert, Steam condensing flow modeling in turbine channels, International Journal of Multiphase Flow, vol.35, issue.6, p.xviii, 2009.

Y. Wu, D. Haworth, M. Modest, and B. Cuenot, Direct numerical simulation of turbulence/radiation interaction in premixed combustion systems, Proceedings of the Combustion Institute, vol.30, issue.1, pp.639-646, 2005.

Y. Wu, M. F. Modest, and D. C. Haworth, A high-order photon monte carlo method for radiative transfer in direct numerical simulation, Journal of Computational Physics, vol.223, issue.2, pp.898-922, 2007.

C. S. Yoo, T. Lu, J. H. Chen, and C. K. Law, Direct numerical simulations of ignition of a lean n-heptane/air mixture with temperature inhomogeneities at constant volume: Parametric study, Combustion and Flame, vol.158, issue.9, p.83, 2011.

M. Yu and P. A. Monkewitz, Oscillations in the near field of a heated two-dimensional jet, Journal of fluid mechanics, vol.255, pp.323-347, 1993.

A. Yücel, S. Acharya, and M. Williams, Natural convection and radiation in a square enclosure, Numerical Heat Transfer, vol.15, issue.2, p.44, 1989.

J. Zhang, Radiation Monte Carlo approcah dedicated to the coupling with LES reactive simulation, p.44, 2011.
URL : https://hal.archives-ouvertes.fr/tel-00594229

Y. Zhang, Coupled convective heat transfer and radiative energy transfer in turbulent boundary layers, p.44, 2013.
URL : https://hal.archives-ouvertes.fr/tel-00969159

Y. Zhang, O. Gicquel, and J. Taine, Optimized emission-based reciprocity monte carlo method to speed up computation in complex systems, International Journal of Heat and Mass Transfer, vol.55, p.46, 2012.

Y. Zhang, R. Vicquelin, O. Gicquel, and J. Taine, Physical study of radiation effects on the boundary layer structure in a turbulent channel flow, International Journal of Heat and Mass Transfer, vol.61, pp.654-666, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01344924