[1]. J.L. Hu, C. H. Kao, “Efficient energy-saving targets for APEC economies”. Energ. Pol, vol. 35, pp. 373-82, 2007.

[2]. P. Lunghi, R. Burzacca, “Energy recovery from industrial waste of a confectionery plant by means of BIGFC plant”. Energy, vol. 29, pp. 2601-17, 2004.

[3]. A. AMELL, “Tecnología de la Combustión de Gases y Quemadores Atmosféricos de Premezcla”. [En línea], Di sponible: ht t p://es.scr ibd.com / doc/73707395/3-Quemadores-Atmosfericos-1,1996.

[4]. Wobbe, G., “A new definition of the Quality of gas”. L´Industria de Gas e degli Acquedotti, vol. 30, 1926.

[6]. P. Delbourg, H. Schneck, “Interchangeability of Gases”. Presentado en 47th Congress of I'Industrie du Gaz, Paris, 1957.

[7]. E. R. Weaver, “Formulas and Graphs for Representing the Interchangeability of Fuel Gases”. Journal of Research of the National Bureau of Standards, vol. 46, n.° 3, 1951.

[8]. S.C. Hsieh, C. J. G. Jou, “Reduction of greenhouse gas emission on a medium-pressure boiler through hydrogen-rich fuel control”. Appl. Therm. Eng, vol. 27, pp. 2924-2928, 2007.

[9]. C. L. Lee, C. J. G. Jou, H. S. Tai, C.H. Wang, S.C. Hsieh, H. P. Wang, “Reduction of nitrogen oxides emissions of a medium-pressure boiler through fuel control”. Aerosol Air Qual. Res, vol. 6, n.° 2, pp. 123-133, 2006.

[10]. C. J. G. Jou, C. L. Lee, C. H. Tsai, H. P. Wang, “Enhancing the performance of a high-pressure cogeneration boiler with waste hydrogen-rich fuel”. Inter. Jour. Hydrogen Energy, vol. 33, pp. 5806-5810, 2008.

[11]. A. M. Mastral, R. Murillo, T. García, M. V. Navarro, M. S. Callen, J. M. López, “Study of the viability of the process for hydrogen recovery from old tyre oils”. Fuel Processing Technology, vol. 75, pp. 185-199, 2002.