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Evaporation Deposits of Diesel and Bio-diesel Fuels on a Hot Surface
Technical Paper
2011-01-1933
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
In this study, using a droplet dripping and evaporation test rig, over ten thousands droplets of diesel and bio-diesel fuels were dripped on a hot surface repeatedly, and evaporation deposits formed from them were quantitatively analyzed. Results show that wet-dry condition and hot surface temperature were main controlling factors of deposits development. Empirical equations of deposits development were derived from the experimental results. Further carbonaceous evaporation deposits from RME were around ten times serious than diesel fuel. The main reason of it was that bio-diesel fuel was produced from various plant oils through esterification and it was liquid phase chemical reaction process with no hot distillation, so that thermal stability of bio-diesel fuel was poor.
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Furuhata, T., Ohmori, T., and Arai, M., "Evaporation Deposits of Diesel and Bio-diesel Fuels on a Hot Surface," SAE Technical Paper 2011-01-1933, 2011, https://doi.org/10.4271/2011-01-1933.Also In
References
- Yamada, Y Emi, M Ishii, H Suzuki, Y Kimura, S Enomoto, Y Heat loss to the combustion chamber wall with deposit in D.I diesel engine: variation of instantaneous heat flux on piston surface deposit JSAE Review 23 415 421 2002
- Kalam, MA Masjuki, HH Emissions and deposits characteristics of a small diesel engine when operated on preheated crude palm oil Biomass and Bioenergy 27 289 297 2004
- Zerda, TW Yuan, X Moore, SM Leon, CA Leon, Y Surface area, pore size distribution and microstructure of combustion engine deposits Carbon 37 1999 2009 1999
- Caceres, D Reisel, JR Sklyarov, A Poehlman, A Exhaust emission deterioration and combustion chamber deposits composition over the life cycle of small utility engine Journal of Engineering for Gas Turbines and Power 125 385 364 2003
- Guralp, O Hoffman, M Assanis, D Filipi, Z Kuo, TW Najt, P Rask, R Characterizing the effect of combustion chamber deposits on a gasoline HCCI engine SAE Paper, No. 2006-01-3277
- Ye, Z Meng, Q Mohamadiah, HP Wang, JT Chen, L Zhu, L Computational fluid dynamics modeling of residual fuel oil combustion in the context of marine diesel engines Int. J. Engine 7 181 199 2006
- Eilts, P Investigation on deposition formation during low load operation of high supercharged diesel engines Int. Symposium, COMODIA 90 517 522 1990
- Ko, K Arai, M Diesel spray and adhering fuel on an impingement wall SAE Paper, No. 2002-01-1628
- Ko, K Arai, M The characteristics of postimpingement diesel spray, part I: Penetration and volume Atomization and Sprays 12 403 417 2002
- Ko, K Arai, M The characteristics of postimpingement diesel spray, part II: Empirical equation of penetration Atomization and Sprays 12 419 430 2002
- Werlberger, P Cartellieri, WP Fuel injection and combustion phenomena in high speed DI diesel engine observed by means of endoscopic high speed photography SAE Paper, No. 870097
- Mathews, WS Lee, CF Peters, JE Experimental investigations of spray/wall impingement Atomization and Sprays 13 223 242 2003
- Eckhause, JE Reitz, RD Modeling heat transfer to impinging fuel sprays in direct-injection engines Atomization and Sprays 5 213 242 1995
- Taylor, CF The internal-combustion engine in theory and practice II 1980 The MIT press London
- Andreassi, L Ubertini, S Alloca, L Experimental and numerical analysis of high pressure diesel spray-wall interaction International Journal of Multiphase Flow 33 742 765 2007
- Sem, TR Effect of various lubricating oils on piston deposits in biodiesel fueled engines SAE Paper; No. 2004-01-0098
- Mohamed, Arifin Y Furuhata, T Saito, M Arai, M Diesel and bio-diesel fuel deposits on a hot surface Fuel 87 1601 1609 2008
- Mohamed Arifin, Y Furuhata, T Saito, M Arai, M Diesel and bio-blended diesel fuel deposits on a hot surface JSAE Transaction 39 207 213 2008
- Mohamed Arifin, Y Tsuruta, T Furuhata, T Saito, M Arai, M Influence Factors of Deposits Formation on a Hot Surface for Diesel and Bio-Blended Diesel Fuel COMODIA 2008 799 805 2008
- Mohamed, Arifin Y Arai, M Deposition Characteristics of Diesel and Bio-diesel Fuels Fuel 88 2163 2170 2009
- Mohamed Arifin, Y Arai, M The Effect of Hot Surface Temperature on Diesel Fuel Deposit Formation Fuel 89 934 942 2010
- Mohamed Arifin, Y Tsuruta, T Furuhata, T Saito, M Arai, M Substitute Procedure for Engine Deposition Test to Investigate Diesel and Bio-diesel Fuel Deposits Journal of the Energy Institute 83 3 160 170 2010
- Bernardin, JD Stebbins, CJ Mudawar, I Mapping of impact and heat transfer regimes of water drops impinging on a polished surface Int. J. Heat Mass Transfer 40 247 267 1997
- Senda, J Yamada, K Takeuchi, K Miki, H Deformation and breakup behavior of a small droplet impinging upon a hot surface JSME Transaction 52 481 3372 3379 1988
- Senda, J Yamada, K Fujimoto, H Miki, H The heat transfer characteristics of a small droplet impinging upon a hot surface JSME International Journal 31 1 105 111 1988
- Senda, J Kanda, T Al-Roub, M Farrel, PV Fukami, T Fujimoto, H Modeling spray impingement considering fuel film formation on the wall SAE Technical Paper; No. 970047
- Mizomoto, M Hayano, H Ikai, S Evaporation and ignition of a fuel droplet on a hot surface (Part 1, evaporation) Bull. JSME 21 162 1765 1771 1978
- Nagao, F Ikegami, M Tokunaga, A Temperature dependence of carbon deposits in diesel combustion chamber Bull. JSME 9 35 573 579 1966