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http://dx.doi.org/10.12925/jkocs.2018.35.3.667

A Study on The Performance and Fuel Economy of Diesel Vehicles According to Change in Fuel Properties  

Noh, Kyeong-Ha (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Lee, Min-Ho (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Kim, Ki-Ho (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Lee, Jung-Min (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
Publication Information
Journal of the Korean Applied Science and Technology / v.35, no.3, 2018 , pp. 667-675 More about this Journal
Abstract
Increasing emissions regulations and demand of high-efficiency cars that travels a lot of distance with less fuel, there is growing interest in Energy Consumption Efficiency. Korean energy consumption efficiency compute combined Fuel Economy by driven city & highway driving mode and present final Energy Consumption Efficiency as using 5-cycle correction formula. Energy consumption efficiency is computed Carbon-balance-method, when used burning fuel play a key role in vehicle performance & Energy Consumption Efficiency. In Korea, vehicle fuel is circulate by Petroleum and Petroleum Alternative Business Act, there is property difference in quality standard because petroleum sector's refine method or type of crude oil. It does not appear a big difference according to fuel, because it sets steady quality standard, it may affect the performance of automobile. Thus, in research We purchase a few diesel fuel which circulated in the market in summer season though directly-managed-gas station by petroleum sector, resolve property each of fuel, we compute Fuel Economy each of them. We analyze into change depend on applying for property as nowadays utilizing Energy Consumption Efficiency calculating formula of gasoline and diesel fuel. As result, Density each of sample fuel has a maximum difference roughly 0.9%, net heat value each of sample fuel has difference 1.6%, result of current Energy Consumption Efficiency each of sample fuel has a difference roughly 1% at city drive mode, 1.4% at highway drive mode. Result of use gasoline calculator formula shows less 6% result than nowadays utilizing Energy Consumption Efficiency calculating formula, each of sample's Energy Consumption Efficiency shows maximum roughly 1.4% result in city & highway drive mode.
Keywords
Fuel Economy for Diesel; Fuel Economy For Gasoline; Carbon Balance; diesel;
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  • Reference
1 U. Lundqvist, G. Smedler, P. Stalhammar, "A Comparison Between Different EGR Systems for HD Diesel Engines and Their Effect on Performance, Fuel Consumption and Emission", SAE Technical Paper, No. 2000-01-0226, (2000).
2 M. Nabi, M. Minami, H. Ogawa, N. Miyamoto, "Ultra Low Emission and High Performance Diesel Combustion with Highly Oxygenated Fuel," SAE Technical Paper, No. 2000-01-0231, (2000).
3 M. H. Lee, S. W. Kim, K. H. Kim, C. S. Jung, H. J. Oh, "A study about fuel economy and exhaust emission characteristics according to the vehicle test mode conditions", KSAE 2012 Annual conference, KSAE12-A0130, (2012).
4 G. Cho, H. Wi, J. Lee, J. Park and K. Park, "Effect of Alternator Control on Vehicle Fuel Economy," Transactions of KSAE, Vol. 17, No. 2, pp. 20-25, (2009).
5 E. Mattarelli, G. Bianchi, D. Ivaldi, "Experimental and Numerical Investigation on the EGR System of a New Automotive Diesel Engine," SAE Technical Paper, No. 2000-01-0224, (2000).
6 C. Oh, G. Cha, "Impact of Fuel, Injection Type and After-treatment System on Particulate Emissions of Light-duty Vehicles Using Different Fuels on FTP-75 and HWFET Test Cycles", Int. J. Automotive Technology, 16(6), pp. 895-901, (2015).   DOI
7 J. Kim, K. Choi, C. L. Myung, Y. Lee, S. Park, "Comparative Investigation of Regulated Emissions and Nano-particle Characteristics of Light Duty Vehicles Using Various Fuels for the FTP-75 and the NEDC Mode", Fuel, 106, pp. 335-343, (2013).   DOI
8 Ministry of Trade, Industry and Energy, Petroleum and Petroleum Substitute Fuel Business Act(2015).
9 Federal Regulation Title 40:Protection of Environment-chapter I-Subchapter U-Part 1065-Subpart H-${\S}$1065.703 Distillate Diesel fuel
10 U. Ulfvarson, "Diesel-Exhaust Tests Should be Revised with Respect to Health-Indicators," SAE Technical Paper, No. 2000-01-0235, (2000).
11 K. Ryu, J. Park, K. Choi, "Performance and Emission Characteristics of Dual-fuel(Diesel-CNG) Combustion in a Diesel Engine," Transactions of KSAE, Vol. 18, No. 4, pp. 132-139, (2010).
12 M. Pierotti, T. Cash, J. Williams, U. Zink, "Diesel Exhaust Aftertreatment - Materials and Systems," SAE Technical Paper, No. 2000-01-1413, (2000).
13 A. Felming, R., "Fuel Economy of Light-Duty Diesel Vehicles", SAE Technical Paper, No. 760592, (1976).
14 M. D. Eom, J. h. Ryu, J. S. Han, Y. S. Lyu, D. W. Kim, J. C. Kim, "A Study on the VOCs Emission Characteristics by the Light Duty Diesel and LPG Fueled Vehicles", Transactions of KSAE, Vol. 16, No. 1, pp. 8-13, (2008).
15 E. J. Kang, M. S. Chon, J. S. Um, K. H. Kim, Y. H. Seo, "Characteristics Evaluation of Fuel Economy and Emission according to Driving Mode Conditions of The Vehicle by Fuel Type", KSAE 2015 Annual conference, KSAE15-B0077(2015).