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A COMPARISON STUDY ON THE COMBUSTION AND PARTICULATE EMISSIONS OF 2,5-DIMETHYLFURAN/DIESEL AND ETHANOL/DIESEL IN A DIESEL ENGINE

ABSTRACT
Compared with pure Diesel fuel, Diesel engine fueled with 2,5-dimethylfuran/ diesel prolonged the ignition delay, shortened the combustion duration, increased the engine efficiency and decreased the number of accumulation mode particles (50 nm < Dp < 1000 nm), but increased the nucleation mode (Dp < 50 nm) number. The mean diameter of particles was declined with 2,5-dimethylfuran addition due to the increase of small particles number. Ethanol/diesel was more effective in extending the ignition delay, shortening the combustion duration, enhancing the engine efficiency and reducing the number of large size particles, but produced more small size particles compared with 2,5-dimethylfuran/diesel.
KEYWORDS
PAPER SUBMITTED: 2017-07-04
PAPER REVISED: 2017-08-12
PAPER ACCEPTED: 2017-08-27
PUBLISHED ONLINE: 2017-09-09
DOI REFERENCE: https://doi.org/10.2298/TSCI170704192W
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2018, VOLUME 22, ISSUE Issue 3, PAGES [1351 - 1361]
REFERENCES
  1. Xu, N., Gong, J., Huang, Z., Review on the production methods and fundamental combustion characteristics of furan derivatives, Renewable and Sustainable Energy Reviews, 54 (2016), pp.1189-1211.
  2. Petrović, V. Particulate matters from diesel engine exhaust emission, Thermal Science, 12 (2008), 2, pp. 183-198.
  3. Petrović, V., Janković, S., Tomić, M., Jovanović, Z., Knežević, D. The possibilities for measurement and characterization of diesel engine fine particles: A review, Thermal Science, 15 (2011), 4:915-938.
  4. Zhang, Q.C., Chen, G.S., Zheng, Z.Q., Liu, H.F., Xu, J., Yao, M.F., Combustion and emissions of 2,5-dimethylfuran addition on a diesel engine with low temperature combustion, Fuel, 103 (2013), 1, pp. 730-735
  5. Liu, H.F., Xu, J., Zheng, Z.Q., Li, S.J., Yao, M.F., Effects of fuel properties on combustion and emissions under both conventional and low temperature combustion mode fueling 2,5-dimethylfuran/diesel blends, Energy, 62 (2013), pp. 215-223
  6. Chen, G.S., Shen, Y.G., Zhang, Q.C., Yao, M.F., Zheng, Z.Q., Experimental study on combustion and emission characteristics of a diesel engine fueled with 2,5-dimethylfuran-diesel, n-butanol-diesel and gasolinediesel blends, Energy, 54 (2013), 1, pp. 333-342.
  7. Liu, X.L., Wang, H., Wei, L.X., Liu, J.L., Reitz, R., Yao, M.F., Development of a reduced toluene reference fuel (TRF)-2,5-dimethylfuran-polycyclic aromatic hydrocarbon (PAH) mechanism for engine applications, Combustion and Flame, 165 (2016), pp. 453-465.
  8. Cambustion Ltd. DMS500 User Manual; 2011. Version 3.5 <www.cambustion.com>.
  9. DMS Instrument Principle. <www.cambustion.com/products/dms>.
  10. Xiao, H.L., Zeng, P.F., Zhao, L.R., Li, Z.Z., Fu, X.W., An experimental study of the combusition and emission performances of 2,5-dimethylfuran diesel blends on a diesel engine, Thermal Science, 21 (2017), 1, pp. 543-553.
  11. Wei, M.R., Li, S., Xiao, H.L., Guo, G.L.. Combustion performance and pollutant emissions analysis using diesel/gasoline/iso-butanol blends in a diesel engine, Energy Conversion and Management, 149 (2017), pp. 381-391.
  12. Tsolakis, A., Effect on particle size distribution from the diesel engine operating on RME-Biodiesel with EGR, Energy and Fuels, 20 (2006), 4, pp. 1418-1424.
  13. Kittelson, D.B., Engine and nanoparticles: a review, Journal of Aerosol Science, 29 (1998), 5-6, pp. 575-588.
  14. Lähde, T.: Rönkkö, T., Virtanen, A., Solla, A., Kytö, M., Söderström, C., Keskinen, J., Dependence etween nonvolatile nucleation mode particle and soot number concentrations in an EGR equipped heavy-duty diesel engine exhaust, Environmental Science and Technology, 44 (2010), 8, pp. 3175-3180.
  15. Cheng, A.S., Dibble, R.W., Buchholz ,B.A., The effect of oxygenates on diesel engine particulate matter, SAE Paper, (2002), 2002-01-1705.
  16. Togbé, C., Tran, L., Liu, D., Felsmann, D., Oßwald, P., Glaude, P., Sirjean, B., Fournet, R., Battin-Leclerc, F., Kohse-Höinghaus, K., Combustion chemistry and flame structure of furan group biofuels using molecularbeam mass spectrometry and gas chromatography-Part III:2,5-Dimethylfuran. Combustion and Flame, 161 (2014), 3, pp. 780-797.
  17. Tse, H., Leung, C.W., Cheung, C.S., Performances, Emissions and Soot Properties from a Diesel-Biodiesel- Ethanol Blend Fuelled Engine, Advances in Automobile Engineering, (2016), S1,005.
  18. Tamanouchi, M., Akimoto, T., Aihara, S., Morihisa, H., Effects of DGM and oxidation catalyst on diesel exhaust emissions, SAE Paper, (1999),1999-01-1137.

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