Among new technologies, MILD combustion [1] is accepted to be one of the most promising novel concept that would respond to the requirements imposed by environmental constraints. MILD combustion features also imply a strong flexibility with respect to the fuel thus allowing the use of low calorific value mixtures with high efficiency. The proposed strategy is to burn mixtures highly diluted and preheated. In pratical systems this is reached recycling exhaust gases, mainly consisting of CO2 and H2O. Such non inert species, deriving also from presence of diluent in low calorific value fuels, may alter the kinetic routes by means of thermal and chemical effects.
The role of CO2 and H2O on ignition chemistry of simple hydrocarbons
Pino Sabia;M de Joannon;R Ragucci
2014
Abstract
Among new technologies, MILD combustion [1] is accepted to be one of the most promising novel concept that would respond to the requirements imposed by environmental constraints. MILD combustion features also imply a strong flexibility with respect to the fuel thus allowing the use of low calorific value mixtures with high efficiency. The proposed strategy is to burn mixtures highly diluted and preheated. In pratical systems this is reached recycling exhaust gases, mainly consisting of CO2 and H2O. Such non inert species, deriving also from presence of diluent in low calorific value fuels, may alter the kinetic routes by means of thermal and chemical effects.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
