1 |
Szego, G. G., Dally, B. B., and Nathan, G. J., 2009, Operational characteristics of a parallel jet MILD combustion burner system, Combustion and Flame, Vol. 156, No. 2, pp. 429-438.
DOI
|
2 |
Parente, A., Malik, M. R., Contino, F., Cuoci, A., and Dally, B. B., 2016, Extension of the Eddy Dissipation Concept for turbulence/chemistry interactions to MILD combustion, Fuel, Vol. 163, pp. 98-111.
DOI
|
3 |
Frenklach, M., Wang, H., Goldenberg, M., Smith, G. P., Golden, D. M., Bowman, C. T., Hanson, R. K., Gardiner, W. C., and Lissianski, V., 1995, GRI-Mech-An Optimized Detailed Chemical Reaction Mechanism for Methane Combustion, Gas Research Institute Topical Report, No. GRI-95/0058, Transfer, Vol. 106, pp. 774-781.
|
4 |
Lee, C. S. and Jeon, J. Y., 2012, Activities on IEA/ECERC Delegation of Korea, Journal of Korean Society of Combustion, Vol. 17, No. 4, pp. 1-4.
|
5 |
Li, J., Yang, W., Blasiak, W., and Ponzio, A., 2012, Volumetric combustion of biomass for and NOx reduction in coal-fired boilers, Fuel, Vol. 102, pp. 624-633.
DOI
|
6 |
Yang, B. O. and Lim, I. G., 1999, Experimental Study on High Temperature Air Regenerative Combustion System, 19th KOSCO Symposium, pp. 189-200.
|
7 |
von Schéele, J., 2009, Use of direct flame impingement oxyfuel, Ironmaking and Steel-making, Vol. 36, No. 7, pp. 487-490.
DOI
|
8 |
von Scheele, J., Gartz, M., Paul, R., Lantz, M. T., Riegert, J. P., and Soderlund, S., 2008, Flameless oxyfuel combustion for increased production and reduced and NOx emission, Stahl und Eisen, Vol. 128, No. 7, pp. 35-40.
|
9 |
Wunning, J. A. and Wunning, J. G., 1997, Flameless oxidation to reduce thermal NO-Formation, Progress in Energy and Combustion Science, Vol. 23, No. 1, pp. 81-94.
|