SEARCH

SEARCH BY CITATION

References

  • 1
    Echigo R. Effective energy conversion method between gas enthalpy and thermal radiation and application to industrial furnaces. Proc. 7th Int. Heat Transfer conf., München, 1982; 6:361366.
  • 2
    Wang K, Tien C. Thermal insulation in flow system, combined radiation and convection through a porous segment. Journal of Heat Transfer 1984; 106:453459.
  • 3
    Fiveland WA. Discrete ordinate method for radiative heat transfer in isotropically and anisotropically scattering media. Journal of Heat Transfer. 1987; 109:809812.
  • 4
    Yoshizawa Y, Sasaki K, Echigo R. Analytical study of the structure of radiation controlled flame. International Journal Heat and Mass Transfer 1988; 3l:311319.
  • 5
    Tong, T and Sathe, S. Heat transfer characteristics of porous radiant burners, Trans. ASME, Journal Heat Transfer 1991; 113:423428.
  • 6
    Kulkarni MR, Peck RE. Analysis of a belayed porous radiant burner. Journal Numerical Heat Transfer 1996; Part A:219232.
  • 7
    Zhou XY, Pereira JCF. Comparison of four combustion models for simulating the premixed combustion in inert porous media. Fire and Materials or Fire Mater 1998; 22:187197.
  • 8
    Malico I. Two-dimensional numerical study and pollutants formation in P.M. combust. Science and Technology 1999; 152:5779.
  • 9
    Brenner G, Pickenacker K, Pickenacker O, Trimis D, Wawrzinek K, Weber T. Numerical and experimental investigation of matrix stabilized methane/air combustion in porous inert media. Combustion and Flame 2000; 123:201213.
  • 10
    Malico I, Pereira J. Numerical study on the influence of radiative properties in porous media combustion. Journal of Heat Transfer 2001; 123:951957.
  • 11
    Tseng C-J. Effect of hydrogen addition on methane combustion in a porous medium burner. International Journal of Hydrogen Energy 2002; 27:699707.
  • 12
    Talukdar P, Mishra S, Trimis D, Durst F Heat transfer characteristics of a porous radiant burner under the influence of a 2 D radiation field. Journal Quantitative spectroscopy & Radiative Transfer 2003; 84:111.
  • 13
    Mishra SC, Steven M, Nemoda S, Talukdar P, Trimis D, Durst F. Heat Transfer analysis of a two-dimensional rectangular porous radiant burner. International Communication in Heat and Mass Transfer 2006; 33: 467-474.
  • 14
    Lari K, Ganjalikhan Nassab SA. Transient thermal characteristics of porous radiant burners. Iranian Journal of Science and Tecnology, transaction b:engineering 2007; 31(b4): 407420.
  • 15
    Hossainpour S, Haddadi B. Numerical study of the effects of porous burner parameters on combustion and pollutants formation. WCE 2008; 21:15051509.
  • 16
    Durst F, Trimis D. Compact low emission combustion reactors with integrated heat exchanger using porous medium combustion. In: Proceedings of the first European Conference on small burner Technology and Heating Equipment, Zurich, Switzerland, September 1996; 1:2526.
  • 17
    Malico I, Zhou XY, Pereira J, C, F. Two-dimensional numerical study on combustion and pollutants formation in porous burner. Combust Science and Technology 2000; 152:5759.
  • 18
    Vafai K. Handbook of Porous Media. Taylor & Francis Group, LIC, 2005.
  • 19
    Nemoda S, Trimis D, Zivkovich G. Numerical simulation of porous burners and hole plate surface burners. Journal Thermal Science 2004; 8:317.
  • 20
    Kee R. J., Rupley F. M., Miller J. A.. The Chemkin Thermodynamic Data Base. Sandia National Laboratories. Rept. SAND-8215B, 1992.
  • 21
    Kee RJ, Dixon-Lewis G, Warnatz J, Coltrin ME, Miller, JA. A fortran computer code package for the evaluation of gas phase multi-component transport properties. Sandia National lab. Report SAND 86-8246, 1996.
  • 22
    Smith GP, Golden DM, Frenklach M, Moriarty NW, Eiteneer B, Goldenberg M et al. available at :http://www.me.berekeley.edu/gri-mech.
  • 23
    Glarborg P, Lilleheie NI, Byggstoyl S, Magnussen BF, Kilpinen P, Hupa M. A reduced mechanism for nitrogen chemistry in methane combustion, 24th Symposium (international ) on Combustion. The Combustion Institute 1992; 24(1):889890.
  • 24
    Brown PN, Byrne GD, Hindmarsh AC, VODE: a Variable Coefficient ODE Solver. SIAM Journal on Scientific and Statistical Computing 1989; 10:10381051.
  • 25
    Durst F, Trimis D. Compact porous medium burner and heat transfer exchanger for household applications. Ec project report, Contact no. JOEC-CT95-0019, 1996.