Laminar Burning Speed Study of Alternative Fuel Air Diluent Mixtures at High Pressures and Temperatures
Author:
Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-13-9012-8_9
Reference88 articles.
1. Natarajan J, Lieuwen T, Seitzman J (2007) Laminar flame speeds of H2/CO mixtures: effect of CO2 dilution, preheat temperature, and pressure. Combust Flame 151:104–119
2. Prathap C, Ray A, Ravi MR (2008) Investigation of nitrogen dilution effects on the laminar burning velocity and flame stability of syngas fuel at atmospheric condition. Combust Flame 155(1–2):145–160
3. Sun H, Yang SI, Jomaas G, Law CK (2007) High-pressure laminar flame speeds and kinetic modeling of carbon monoxide/hydrogen combustion. Proc Combust Inst 31:439–446
4. Som S, Ramirez AI, Hagerdorn J, Saveliev A, Aggarwal SK (2008) A numerical and experimental study of counterflow syngas flames at different pressures. Fuel 87:319–334
5. Natarajan J, Kochar Y, Lieuwen T, Seitzman J (2009) Pressure and preheat dependence of laminar flame speeds of H2/CO/CO2/O2/He mixtures. Proc Combust Inst 32(1):1261–1268
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