EXPERIMENTAL RESEARCH ON DIESEL ENGINE WORKING ON A MIXTURE OF DIESEL FUEL AND FUSEL OILS

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Transport Problems

Silesian University of Technology

Subject: Economics , Transportation , Transportation Science & Technology

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ISSN: 1896-0596
eISSN: 2300-861X

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VOLUME 12 , ISSUE 2 (June 2017) > List of articles

EXPERIMENTAL RESEARCH ON DIESEL ENGINE WORKING ON A MIXTURE OF DIESEL FUEL AND FUSEL OILS

Sviatoslav KRYSHTOPA * / Liudmyla KRYSHTOPA / Vasyl MELNYK / Bohdan DOLISHNII / Igor PRUNKO / Yaroslav DEMIANCHUK

Keywords : alternative fuel,  diesel fuel,  fusel oil

Citation Information : Transport Problems. Volume 12, Issue 2, Pages 53-63, DOI: https://doi.org/10.20858/tp.2017.12.2.6

License : (CC BY 4.0)

Received Date : 19-January-2016 / Accepted: 22-May-2017 / Published Online: 23-October-2017

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ABSTRACT

This article considers the possibility of spirit fusel oil being used as an addition to agile fuels. Results of experimental research on diesel engines working on mixtures of diesel fuel and fusel oils are given. The fuel economy and ecological indexes of engines working on mixtures of diesel fuel and fusel oils were improved.

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1. Мельник, В.М. Альтернативні палива дизельних двигунів нафтогазової галузі. Розвідка та розробка нафтових і газових родовищ. 2005. No 4. Р. 92-94. [In Ukrainian: Melnyk, V.M. Alternative fuels of diesel engines of oil and gas industry. Search and development of oil and gas deposits].
2. Wirawan, S. & Tambunan, A. & Djamin, M. & Nabetani, H. The Effect of Palm Biodiesel Fuel on the Performance and Emission of the Automotive Diesel Engine. Agricultural Engineering International: the CIGR Ejournal. Manuscript EE 07 005. 2008. Vol. X.
3. Karabektas, M. & Ergen, G. & Hosoz, M. The effects of preheated cottonseed oil methyl ester on the performance and exhaust emissions of a diesel engine. Applied Thermal Engineering. 2008. No. 28. P. 2136-2143.
4. Wang, W. & Lyons, D. & Clark, N. & Gautam, M. Emissions from nine heavy trucks fueled by diesel and biodiesel blend without engine modification. Environmental science & technology. 2000. Vol. 34, No. 6. P. 933-939.
5. Westbrook, S.R. An Evaluation and Comparison of Test Methods to Measure the Oxidation Stability of Neat Biodiesel. National Renewable Energy Laboratory. 2005. 34 p.
6. He, Y. & Bao, Y. Study on rapeseed oil as althernative fuel for a single-cylinder diesel engine. Renewable Energy. An international journal. 2003. No. 28. P. 1447-1453.
7. Матейчик, В.П. Енергоустановка транспортного засобу: системний підхід до дослідження. Автошляховик України: окремий вип. 2002. No 5. P. 33-35. [In Ukrainian: Mateychyk, V.P. Power plant of transport vehicle: systems approach to research. Autoshliahovyk of Ukraine: separate issue].
8. Apostolakou, A. & Kookos, I. & Marazioti, C. & Angelopoulos, K. Techno-economic analysis of a biodiesel production process from vegetable oils. Fuel Process Technology. 2009. No. 90 (7) Р. 1023–1031.
9. Tang, Z. & Zhenzhou, L. & Zhiwen, L. & Ningcong, X. Uncertainty analysis and global sensitivity analysis of techno-economic assessments for biodiesel production. Bioresour Technology. 2015. No. 175. Р. 502–508.
10. Gubicza, K. & Nieves, I. & Sagues, W. & Barta, Z. & Shanmugam, K. & Ingram, L. Techno-economic analysis of ethanol production from sugarcane bagasse using a Liquefaction plus Simultaneous Saccharification and co-Fermentation process. Bioresour Technology. 2016. No. 208. Р. 42-48.
11. Ljunggren, M. & Wallberg, O. & Zacchi, G. Techno-economic comparison of a biological hydrogen process and a 2nd generation ethanol process using barley straw as feedstock. Bioresour Technology. 2011. No. 102 (20). Р. 9524–9531.
12. Klein-Marcuschamer, D. & Simmons, B. & Blanch, H. Techno-economic analysis of a lignocellulosic ethanol biorefinery with ionic liquid pre-treatment. Biofuels, Bioproducts and Biorefining. 2011. No. 5. Р. 562–569.
13. Шапко С.В. Підвищення стабільності екологічних показників дизельного автомобіля, обладнаного каталітичним нейтралізатором. PhD thesis. Львів: НУ «Львівська політехніка». 2004. 156 р. [In Ukrainian: Shapko, S.V. Increasing of stability of ecological indexes of the diesel car equipped by catalytic neutralizer. PhD thesis. National university «Lvivska Politehnica»].
14. Pontikakis, G. & Stamatelos A. Mathematical modelling of catalytic exhaust systems for EURO-3 and EURO-4 emissions standards. Proc. Inst. Mech. Engrs. 2001. Part D. Vol. 215. P. 1005-1015.
15. Orlyk, S.M. & Soloviev, S.O. Palladium in GasPhase Processes of Environmental Catalysis in «Palladium: Compounds, Production and Applications». Nova Science Publishers. Series: Material Science and Technology. 2011. Р. 57–103.

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