Air Fuel Ratio Study For Mixture Of Biogas And Hydrogen On Mild Combustion
作者: Talal Yusaf
DOI:
关键词: Methane 、 Waste management 、 Chemistry 、 Air–fuel ratio 、 Combustor 、 Biogas 、 Hydrogen 、 Combustion 、 Exhaust gas recirculation 、 Exhaust gas
摘要: Air Fuel Ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will result in Unburned Hydrocarbons (UHC) that harms environment. This paper discusses simulation of for Moderate or Intense Low oxygen Dilution (MILD) using bluff-body burner. A low calorie biogas fuel 50% methane, 20% hydrogen and 30% carbon dioxide were used this simulation. The be evaluated based on UHC produced measured exhaust gas composition. Stoichiometric zero excess Oxygen gas. a waste possible create unwanted at location. study found 4:1, almost was detected pipe Exhaust Gas Recirculation (EGR) pipe.
usq.edu.au参考文章(50)
Kadirgama K., Noor M. M., Bakar R. A., Rahman M. M., INFLUENCE OF ENGINE SPEED AND INJECTION TIMINGS ON IN-CYLINDER HEAT TRANSFER FOR PORT INJECTION HYDROGEN FUELED ENGINE ,(2010)
Andrew P. Wandel, Nigel S. A. Smith, A. Y. Klimenko, Implementation of Multiple Mapping Conditioning for Single Conserved Scalar Computational Fluid Dynamics 2002. pp. 789- 790 ,(2003) , 10.1007/978-3-642-59334-5_128
Kadirgama K., Noor M. M., Bakar R. A., Rahman M. M., Trends of Air Fuel Ratio on Engine Performance of Four Cylinder Direct Injection Hydrogen Fueled Engine EuroJournals. ,(2010)
K. Matthew, Energy and Fuel. The School science review. ,(1975)
Andrew P. Wandel, Talal Yusaf, M. M. Noor, Numerical Study of Oxygen Dilution and Temperature Distribution of Biogas Combustion in Bluff-Body MILD Burner University of Western Australia. ,(2013)
Rejab M. R. M., Kadirgama K., Noor M. M., Sani M. S. M., Rahman M. M., Study of Air Fuel Ratio on Engine Performance of Direct Injection Hydrogen Fueled Engine ,(2008)
Andrew P. Wandel, Talal Yusaf, M. M. Noor, Detail Guide for Cfd on the Simulation of Biogas Combustion in Bluff-Body Mild Burner Universiti Malaysia Pahang. ,(2013)
M. M. Noor, Andrew P. Wandel, Talal Yusaf, MILD Combustion: the Future for Lean and Clean Combustion Technology International Review of Mechanical Engineering-IREME. ,vol. 8, pp. 251- 257 ,(2014) , 10.15866/IREME.V8I1.1267
Joachim Wünning, Flammenlose Oxdation von Brennstoff mit hochvorgewärmter Luft Chemie Ingenieur Technik. ,vol. 63, pp. 1243- 1245 ,(1991) , 10.1002/CITE.330631219
Tsan-Hsing Shih, A. Shabbir, W. W. Liou, Jiang Zhu, Z. Yang, A New K-epsilon Eddy Viscosity Model for High Reynolds Number Turbulent Flows: Model Development and Validation NASA STI/Recon Technical Report N. ,vol. 95, pp. 11442- ,(1994)