S. Bardi and A. Astolfi, Modeling and control of a waste-to-energy plant, IEEE Control Systems Magazine, vol.30, issue.6, pp.27-37, 2010.

H. Cheng and Y. Hu, Municipal solid waste (msw) as a renewable source of energy: Current and future practices in china, Bioresource Technology, vol.101, issue.11, pp.3816-3824, 2010.

L. V. Kessel, M. Leskens, and G. Brem, On-line calorific value sensor and validation of dynamic models applied to municipal solid waste combustion, Process Safety and Environmental Protection, vol.80, issue.5, pp.245-255, 2002.

B. Krause, C. Von-altrock, K. Limper, and W. Schäfers, A neuro-fuzzy adaptive control strategy for refuse incineration plants, Fuzzy Sets and Systems, vol.63, issue.3, pp.329-338, 1994.

B. Leckner, Spectral and total emissivity of water vapor and carbon dioxide, Combustion and Flame, vol.19, issue.1, pp.33-48, 1972.

M. Leskens, L. Van-kessel, and O. Bosgra, Model predictive control as a tool for improving the process operation of msw combustion plants, Waste Management, vol.25, issue.8, pp.788-798, 2005.

A. Lopez, D. Roizard, E. Favre, and A. Dufour, Les procédés de capture du CO2. cas des unités de traitement et de valorisation thermique des déchets, 2013.

N. S. Osborne and C. H. Meyers, A formula and tables for the pressure of saturated water vapor in the range 0 to 374 ? c, 1934.

F. Schuler, F. Rampp, J. Martin, and J. Wolfrum, Taccos-a thermography-assisted combustion control system for waste incinerators, 25th Symposium (International) on Combustion Papers, vol.99, pp.431-439, 1994.

K. Shen, J. Lu, Z. Li, and G. Liu, An adaptive fuzzy approach for the incineration temperature control process, Fuel, vol.84, issue.9, pp.1144-1150, 2005.