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In this study, spark ignition engine fuelled with buthanol-gasoline mixture and a hydrogen-enriched air was investigated. Engine performance, emissions and combustion characteristics were investigated with different buthanol (10% and 20% by volume) gasoline mixtures and additionally supplied oxygen and hydrogen (HHO) gas mixture (3.6 l/min) in the sucked air. Hydrogen, which is in the HHO gas, improves gasoline and gasoline-buthanol mixture combustion, increases indicated pressure during combustion phase and decreases effective specific fuel consumption. Buthanol addition decreases the rate of heat release, the combustion temperature and pressure are lower which have an influence on lower nitrous oxide (NOx) emission in exhaust gases. Buthanol lowers hydrocarbon (HC) formation, but it increases carbon monoxide (CO) concentration and fuel consumption. Combustion process analysis was carried out using AVL BOOST software. Experimental research and combustion process numerical simulation showed that using balanced buthanol and hydrogen addition, optimal efficient and ecological parameters could be achieved when engine is working with optimal spark timing, as it would work on gasoline fuel.
Słowa kluczowe
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Rocznik
Tom
Strony
102--108
Opis fizyczny
Bibliogr. 17 poz., fig., tab.
Twórcy
autor
- Faculty of Transport Engineering, Vilnius Gediminas Technical University, J. Basanaviciaus Str. 28, 03224 Vilnius, Lithuania
autor
- Faculty of Transport Engineering, Vilnius Gediminas Technical University, J. Basanaviciaus Str. 28, 03224 Vilnius, Lithuania
autor
- Faculty of Transport Engineering, Vilnius Gediminas Technical University, J. Basanaviciaus Str. 28, 03224 Vilnius, Lithuania
autor
- Faculty of Transport Engineering, Vilnius Gediminas Technical University, J. Basanaviciaus Str. 28, 03224 Vilnius, Lithuania
autor
- Faculty of Transport Engineering, Vilnius Gediminas Technical University, J. Basanaviciaus Str. 28, 03224 Vilnius, Lithuania
Bibliografia
- 1. White paper 2011. Roadmap to a single european transport area – towards a competitive and resource efficient transport system. Brussels, 28.3.2011.
- 2. Gupta R.G.: Hydrogen fuel: production, transport and storage. Library of Congress Cata-loging-in- Publication Data.
- 3. Aleiferis P.G., Behringer M.K.: Flame front analysis of ethanol, butanol, iso-octane and gasoline in a spark-ignition engine using laser tomography and integral length scale measurements. Combustion and Flame, vol. 162, 2015, 4533–4552.
- 4. Elfasakhany, A.: Experimental study of dual n-butanol and iso-butanol additives on spark-ignition engine performance and emissions. Fuel, vol. 163, 2016, 166–174
- 5. Suleiman Q. Abu-Ein., Sayel M. Fayyad: Experimental Hydrogen Booster Model. World Applied Sciences Journal, 15(8), 2011, 1168-1171.
- 6. Yilmaz A.C., Uludamar E., Aydin K.: Effect of hydroxy (HHO) gas addition on performance and exhaust emissions in compression ignition engines. International Journal of Hydrogen Energy, 35(20), 2010, 11366–11372.
- 7. Shivaprasad K., Raviteja S., Parashuram Ch., Kumar G.Nb.: Experimental investigation of the effect of hydrogen addition on combustion performance and emissions characteristics of a spark ignition high speed gasoline engine. Procedia Technology, vol. 14, 2014, 141–148.
- 8. Tornatore C., Marchitto L., Valentino G., Corcione F.E., Merola S.S.: Optical diagnostics of the combustion process in a PFI SI boosted engine fueled with butanole – gasoline blend. Energy, vol. 45(1), 2012, 277-287.
- 9. Renhua Feng, Jing Yang, Daming Zhang, Banglin Deng, Jianqin Fu, Jingping Liu, Xiaoqiang Liu: Experimental study on SI engine fuelled with butanol–petrol blend and H2O addition. Energy Conversion and Management, vol. 74, 2013, 192–200.
- 10. Galloni E., Fontana G., Staccone S., Scala F.: Performance analyses of a spark-ignition engine firing with gasoline–butanol blends at partial load operation. Energy Conversion and Management, vol. 110, 2016, 319-326.
- 11. American Chemistry Council’s Oxo Process Panel, ir United States Environmental Protection Ageency. In. SIDS Initial Assessment Report for SIAM 13. Bern, 6-9 November, 2001.
- 12. Wang S., Ji C., Zhang J., Zhang B.: Improving the performance of a gasoline engine with the addition of hydrogen-oxygen mixtures. International Journal of Hydrogen Energy, 36(17), 2011, 11164–11173.
- 13. Stiesch G.: Modeling Engine spray and combust ion processes. Springer-Verlag, Berlin Heidelberg, 2010.
- 14. Rimkus A.: Improvement of efficiency of operation of an internal combustion engine by using Brown’s gas. Doctoral dissertation. Vilnius: Technika, 2013. pp. 156.
- 15. Lábaj J., Patsch M., Barta D.: Combustion of alternative fuels. In: TRANSCOM 2009: 8-th European conference of young research and scientific workers: Žilina, June 22-24 2009, Slovak Republic. Žilina: University of Žilina, 2009, 67-76.
- 16. Heywood J.B.: Internal combustion engine fundamentals. New York, McGraw-Hill, 1988, pp. 930.
- 17. Vibe I.I.: Brennverlauf und Kreisprozeß von Verbrennungsmotoren. Berlin, Verlag Technik, 1970.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8571c8ef-301f-4e3f-87a7-c9dd7ea4f403