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Analysis of the Characteristics of HCCI Combustion and ATAC Combustion Using the Same Test Engine
Technical Paper
2004-32-0097
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Homogeneous Charge Compression Ignition (HCCI) combustion has attracted considerable interest in recent years as a new combustion concept for internal combustion engines. On the other hand, two combustion concepts proposed for two-cycle spark-ignition (SI) engines are Active Thermo-Atmosphere Combustion (ATAC) and Activated Radical (AR) combustion. The authors undertook this study to examine the similarities and differences between HCCI combustion and ATAC (AR) combustion. Differences in the low-temperature oxidation reaction behavior between these two combustion processes were made clear using one test engine.
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Goto, K., Iijima, A., Yoshida, K., and Shoji, H., "Analysis of the Characteristics of HCCI Combustion and ATAC Combustion Using the Same Test Engine," SAE Technical Paper 2004-32-0097, 2004, https://doi.org/10.4271/2004-32-0097.Also In
References
- Onishi, S. Jo, S. H. Shoda, K. Jo, P. D. Kato, S. “Active Thermo-Atmosphere Combustion (ATAC) - A New Combustion Process for Internal Combustion Engines” SAE Paper 790501 1979
- Ishibashi, Y. “Improving the Combustion in Two-Stroke Engine at Part Throttle Operation Using Auto-Ignition” Study of Combustion 117 53 59 1999
- Iida, N. “Characteristics of Low Carbon Alternative Fuel Using 2-Stroke Auto-Ignition Combustion Engine” Study of Combustion 117 39 52 1999
- Ohta, Y. “Autoignition of Homogenous Charge Compression Ignition Engine” Study of Combustion 110 39 49 1997
- Hiraya, K. Hasegawa, K. Urushibara, T. Iiyama, A. Ito, T. “A Study of Gasoline Fueled Compression Ignition Engine” Proceedings of JSAE 2001
- Yoshida, Y. Kidoguchi, K. Kubo, S. Iida, N. “Combustion Analysis of Methanol Fueled ATAC Engine by Spectroscopic Observation” Proceedings of the 11 th Internal Combustion Engine Symposium 175 180 1993
- Amino, Y. Hashimoto, S. Yoshida, K. Shoji, H. “Spectroscopic Measurement of OH Radical Emission Behavior Using a 2-Cycle Engine” SETC 1997 475 480 Paper No. 972139 1997
- Hashimoto, S. Amino, Y. Yoshida, K. Shoji, H. “Analysis of OH Radical Emission Intensity During Autoignition in a 2-Stroke SI Engine” JSME Journal 42 3 515 522 1999
- Yamazaki, A. Hashimoto, S. Yoshida, K. Shoji, H. Saima, A. Tanaka, H. “Clarification of OH Radical Emission Behavior During Autoignition with Internal EGR in a 2-Stroke Engine” IPC - 10 PROCEEDINGS 333 339 1999
- Takei, K. Yamazaki, A. Hashimoto, S. Yoshida, K. Shoji, H. Tanaka, H. “An Experimental Study Concerning the Influence of Hot Residual Gas On Combustion” SAE 2000 INDIA MOBILITY CONFERENCE 67 77 2000
- Inoue, K. Takei, K. Yoshida, K. Shoji, H. Yamazaki, A. “Effect of EGR-induced Hot Residual Gas on Combustion when Operating a Two-stroke Engine on Alcohol Fuels” SAE 2000 Transactions 109 3067 3080 2000
- Iijima, A. Goto, K. Yoshida, K. Shoji, H. “Effect of Internal EGR and Engine Heating on Compression Ignition Combustion in 2-Stroke Engine” Proceedings of the 41 th Symposium (Japanese) on Combustion 475 476 2003
- Koshi, M. Miyoshi, A. Matsui, H. “New Development in Combustion Chemistry” Engine Technology 4 3 40 48 2002
- Nose, M. Isogai, T. Furutani, M. Ohta, Y. “Accumulation of Carbon Monoxide in Negative Temperature Coefficient Regime Piston-Combustion Ignition” Proceedings of the 16 th Internal Combustion Engine Symposium 163 168 2000
- Takahashi, T. Iio, T. Iida, N. “Effect of Internal EGR and Fuel Molecular Structure on Auto Ignition and Combustion in 2-Stroke Engine” Proceedings of the 16 th Internal Combustion Engine Symposium 103 108 2000
- Takahashi, H. Ohta, Y. “Low Temperature Flames (3)” Internal Combustion Engine 22 287 41 47 1983
- Oguma, H. Ichikura, T. Iida, N. “Adaptability of Alternative Fuels to Lean Burn in 2-Stroke ATAC Engine” Proceedings of the 14 th Internal Combustion Engine Symposium 163 168 1997
- Ishibashi, Y. Nishida, K. Sakai, Y. Sakuyama, H. “Two-Stroke Gas Exchanging Method for Controlling Auto-Ignition: Activated Radical Combustion” HONDA R&D Technical Review 15 1 137 144 2003
- Koseki, T. Tamura, S. Kashiwagi, H. Yoshida, K. Shoji, H. Shimada, K. Shibano, K. “Measurement of Radical Behavior in Homogenous Charge Compression Ignition Combustion Using Dimethyl Ether” SETC 2003, Paper No. 2003 - 32 - 0006 2003
- Ohta, Y. “Low-Temperature Autoignition Caused by Piston Compression” Study of Combustion 95 53 67 1994
- Ishii, K. Sakai, M. Iida, N “Influence of Internal EGR on Auto-Ignition and Combustion in Homogenous Charge Compression Ignition Engine” Proceedings of the 16 th Internal Combustion Engine Symposium 103 108 2000
- Kaneko, M. Morikawa, K. Itoh, J. Saishu, Y. “Study on Homogenous Charge Compression Ignition Gasoline Engine” SUBARU Technical Review 28 2001
- Koyama, T. Yamazaki, Y. Iida, N. “Numerical Calculation of the Auto-Ignition and the Combustion in Homogenous Charge Compression Ignition Engine by using an Elementary Reaction Model in case of Dimethyl Ether” Proceedings of the 16 th Internal Combustion Engine Symposium 115 120 2000
- Curran, H. J. Gaffuri, P. Pitz, W. J. Westbook, C. K. “A Comprehensive Modeling Study of n-Heptane Oxidation” Combustion and Flame 114 149 177 1998
- Ohta, Y. “Autoignition Phenomena and Low-Temperature Flames related to Internal Combustion Engines” Engine Technology 2 5 94 99 2000
- Koshi, M. “Low Temperature Oxidation Reaction and High Temperature Oxidation Reaction of Fuel” The School of Fundamental Education Sponsored by The JSME (in Japanese) - The Foundation and Application of Experiment and Measurement Using Internal Combustion Engine (6 th)” 27 32 2002