The authors compare numerical simulations and experiments carried out on a swirling methane/air cylindrical microcombustor with diameter and height 0.006m and 0.009 m, respectively. They extend previous work, using LES and Flamelet methodology; here the EDC finite rate model and the GRIMech 1.2 (32 species and 177 reactions) mechanism are used. Gas temperature at the exhaust section, together with CH chemiluminescence measurements and combustion efficiency analysis are provided. Results reproduce exhaust temperature and combustion efficiency measurements, generally differing by less than 10%. This work should be seen as an advance in the understanding of how to design future microcombustors, presently under rapid development in particular for propulsion (e.g., for UAVs) and microelectrical power generators.
LES Simulation of CH4/air Microcombustor with Detailed Chemistry”, Combustion Science and Technology / Minotti, Angelo; Bruno, Claudio; F., Cozzi. - In: COMBUSTION SCIENCE AND TECHNOLOGY. - ISSN 0010-2202. - STAMPA. - 183:(2011), pp. 554-574. [10.1080/00102202.2010.523031]
LES Simulation of CH4/air Microcombustor with Detailed Chemistry”, Combustion Science and Technology
MINOTTI, ANGELO;BRUNO, Claudio;
2011
Abstract
The authors compare numerical simulations and experiments carried out on a swirling methane/air cylindrical microcombustor with diameter and height 0.006m and 0.009 m, respectively. They extend previous work, using LES and Flamelet methodology; here the EDC finite rate model and the GRIMech 1.2 (32 species and 177 reactions) mechanism are used. Gas temperature at the exhaust section, together with CH chemiluminescence measurements and combustion efficiency analysis are provided. Results reproduce exhaust temperature and combustion efficiency measurements, generally differing by less than 10%. This work should be seen as an advance in the understanding of how to design future microcombustors, presently under rapid development in particular for propulsion (e.g., for UAVs) and microelectrical power generators.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
