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Technology for Environmental Harmonization and Future of the Diesel Engine
Technical Paper
2009-01-0318
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Mankind developed and enjoyed the automobile civilization, and has lauded the prosperity that it brought about. Commercial vehicle launched the heavy duty diesel engine have been contributing by main transportation system for development of society in the world. However both the local and global environment issues appear depend on the life of mankind, in the world. Especially, global warming is the most stringent issue for our life on the earth. We human beings must lay our existence on the line, and call upon expertise to create solutions for this situation. Diesel engine has great potential for the global warming compatibility by it's high thermal efficiency and diesel vehicle is expected to conserve the environment and to improve the fuel saving for keeping resources in the world. This paper introduces the surrounding of the automobile, such as exhaust emission regulation for heavy duty diesel vehicle, amount and contribution of CO2 emission and noise. Next, this paper describes the background to the improvement of output and thermal efficiency of heavy duty diesel engine, the history of reduction of the exhaust emissions from heavy duty diesel engine and the compatibility technology for the environmental harmonization. After this paper presents the combustion concept, modernized combustion system and after-treatment system of heavy duty diesel engine. Then the new combustion technology for heavy duty diesel engine is described in this paper. Finally this paper discusses the future of the heavy duty diesel engine as a motive power source for heavy duty commercial vehicles.
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Authors
- Kazutoshi Mori - Mitsubishi Fuso Truck & Bus Corporation
- Shigeru Matsuo - Mitsubishi Fuso Truck & Bus Corporation
- Shinji Nakayama - Mitsubishi Fuso Truck & Bus Corporation
- Shiroh Shiino - Mitsubishi Fuso Truck & Bus Corporation
- Toru Kawatani - Mitsubishi Fuso Truck & Bus Corporation
- Kazuhiro Nakashima - Mitsubishi Fuso Truck & Bus Corporation
- Yoshinaka Takeda - Mitsubishi Fuso Truck & Bus Corporation
Topic
Citation
Mori, K., Matsuo, S., Nakayama, S., Shiino, S. et al., "Technology for Environmental Harmonization and Future of the Diesel Engine," SAE Technical Paper 2009-01-0318, 2009, https://doi.org/10.4271/2009-01-0318.Also In
References
- Gore Al An Inconvenient Truth Edahiro Junko Random House Kodansha Japan 2006
- Japanese Automotive Industry in 2007 Japan Automotive Manufacturing Association
- Future Measures for Reduction of Automobile Exhaust Emissions Central Environmental Council, 8 th Report April 2007
- Mori K. Trends in Environmental Compatibility Technologies for Truck and Buses 2005 Symposium by Society of Automotive Engineers of Japan (JSAE), No. 01-05, 20054082
- Standardization of Bio-Diesel Fuel Ministry of Economy, Trade and Industry Japan 2007
- Report for Environmental and Recycling Society Ministry of Environment Japan 2007
- Fuel Efficiency Standard of Automobile in Japan Ministry of Land, Infrastructure, Transportation and Travel Japan March 2007
- Automobile and Environment in 2007 Japan Automotive Manufacturing Association
- Mori K. New Quiescent Combustion System for Heavy-Duty Diesel Engines to Overcome Exhaust Emission and Fuel Consumption Trade-off SAE paper 2000-01-1811
- Kohketsu S. et al EGR Technologies for a Turbocharged and Intercooled Heavy-Duty Diesel Engine SAE paper 970340
- Challengers for Automotive Engineering - Dream and Wisdom of Engineers SANKAIDO Japan 161 174
- Sasaki M. et al Human Auditory Models and Sound Quality Evaluation Method for Diesel Noise SAE paper 2007-01-2219
- Kodama K. et al Development of DPF System for Commercial Vehicles (Second Report) SAE paper 2005-01-3694
- Tsuruta T. et al Visualization Study of PM Trapping and Reaction Phenomena in Micro-Structural Pores through Cross Section of DPF Wall SAE paper 2007-01-0917
- Kondo N. et al Development of NOx Trap System for Commercial Vehicle SAE paper 2005-01-3875
- Saito S. et al Development of Urea-SCR System for Commercial Vehicle SAE paper 2003-01-3248
- Kamimoto T. et al High Combustion Temperature for the Reduction of Particulate in Diesel Engines SAE paper 880423
- Takeda Y. et al Emission Characteristics of Premixed Lean Diesel Combustion with Extremely Early Staged Fuel Injection SAE paper 961163
- Shimazaki N. et al Improvement of Exhaust Emissions of Premixed-type Diesel Combustion with Fuel Injection Near Top Dead Center JSAE Transaction 34 01
- Funayama E. et al Study on PCCI Combustion in Multi-Cylinder Diesel Engine Proceeding of JSAE Convention, 20075341
- Okude Keiichi et al Premixed Compression Ignition (PCI) Combustion for Simultaneous Reduction of NOx and Soot in Diesel Engine SAE paper 2004-01-1907
- Ueda M. et al Transient Change Prediction of Diesel Combustion using a Cycle Simulation (Second report) - Transient Performance Prediction using the Combustion Model Proceeding of JSAE Convention, 20065677
- Shimazaki N. et al Effort to Realize for “Clean and Green” Diesel Engines Journal of JSAE 60 9 2006
- Ohkubo Y. et al Study of Pre-mixed Combustion Ignition Combustion on Multi Cylinder Diesel Engine Third Report) - An Examination of Transition Control Method between PCI and Conventional Combustion Proceeding of JSAE Convention, 20075299
- Hiranuma S. et al After-treatment System for Commercial Diesel Engine -Basic System Layout using NOx Catalyst and DPF SAE Paper 2008FFL-0092
- Kodama K. et al Aftertreatment System for Commercial Diesel Engine nd Proceeding of JSAE Convention, 20085701
- IEA World Energy Outlook 2005
- Hori M. Automotive Technology toward 2030 2007 JSAE/SAE International F•L Meeting in Kyoto Jul. 26 2007
- Moriya T. et al Development of Super low exhaust emission city bus by combination of PCI Combustion engine and Series Hybrid Electric Drive System Proceeding of JSAE Convention, 20065770
- 2007 Mitsubishi Fuso Press Information