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Kawaguchi, Akio

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Technical Paper (13) Journal Article (2)

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Automotive (15)

Topics

Combustion and combustion processes (7) Combustion chambers (7) Gases (6) Insulation (6) Diesel / compression ignition engines (5) Carbon monoxide (3) Coatings, colorants, and finishes (3) Conductivity (3) Optimization (3) Particulate matter (PM) (3) Simulation and modeling (3) CAD, CAM, and CAE (2) Ceramics (2) Chromium (2) Diesel fuels (2) Engine cylinders (2) Exhaust emissions (2) Fatigue (2) Gears (2) Imaging and visualization (2) Molding (2) Peening (2) Pistons (2) Steel (2) Transmission gears (2) Adiabatic engines (1) Computational fluid dynamics (1) Emissions certification (1) Energy conservation (1) Engine efficiency (1) Environmental testing (1) Exhaust systems (1) Fuel economy (1) Fuel injection (1) Heat resistant materials (1) Heat transfer (1) Knock (1) Lasers (1) Mathematical models (1) Nitrogen oxides (1) Nozzles (1) Oxygen (1)

Authors

Kawaguchi, Akio (15) Wakisaka, Yoshifumi (5) Hattori, Yoshiaki (4) Kosaka, Hidemasa (4) Takada, Noriyuki (4) Akihama, Kazuhiro (3) Aoki, Hideki (3) Fukui, Kenji (3) Fuyuto, Takayuki (3) Hotta, Yoshihiro (3) Ito, Hisaki (3) Ueda, Reiko (3) Umehara, Tsutomu (3) Aiba, Teruhiko (2) Koike, Makoto (2) Matsumoto, Takafumi (2) Matsumoto, Takashi (2) Mizuta, Jun'ichi (2) Nakakita, Kiyomi (2) Nomura, Yoshihiro (2) Okada, Yoshio (2) Ona, Kunihito (2) Tanaka, Toshiyuki (2) Hamamura, Yoshihiko (1) Iguma, Hiroki (1) Inayoshi, Minaji (1) Ishiguro, Tomoji (1) Karasawa, Takao (1) Kogo, Tomoyuki (1) Kurabayashi, Toshio (1) Nakatani, Koichiro (1) Nishikawa, Kazuaki (1) Nishikawa, Naoki (1) Nishio, Kohji (1) Orihashi, Hirotoshi (1) Sato, Yasuo (1) Shiga, Seiichi (1) Shoji, Akira (1) Toda, Tadashi (1) Yamashita, Chikanori (1) Yamashita, Hideo (1) Yanagihara, Hiromichi (1)

Publishers

SAE (8) JSAE (6) SAEA (1)

Affiliations

Toyota Motor Corporation (4) Toyota Central R&D Labs Inc. (3) Toyota Central R&D Labs. (2) Toyota Motor (2) Toyota Motor Corp (2) Gunma University, Kiryu, Gunma (1) Nissan Motor (1) Nissan Motor Co., Ltd. (1) Toyota Central R&D Lab. (1) Toyota Central R&D Labs Inc (1) Toyota Central Research & Development Labs., Inc. (1) Toyota Industries (1) Toyota Industries Corp. (1) Toyota Motor Co. (1) Toyota Motor Corp. (1) TOYOTA MOTOR CORP. (1) Toyota Motors Corp. (1) TOYOTA TECHNICAL DEVELOPMENT CORP. (1) Toyota Technical Development Corporation (1)

Events

SAE 2016 World Congress and Exhibition (3) JSAE Autumn Conference (2) 4th International Pacific Conference on Automotive Engineering (1) International Congress & Exposition (1) International Fuels & Lubricants Meeting & Exposition (1) Powertrains, Fuels and Lubricants Meeting (1) SAE 2013 World Congress & Exhibition (1) SAE 2016 International Powertrains, Fuels & Lubricants Meeting (1)

Search Results (15) Search History

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Select Thermo-Swing Wall Insulation Technology; - A Novel Heat Loss Reduction Approach on Engine Combustion Chamber -

Thermo-Swing Wall Insulation Technology; - A Novel Heat Loss Reduction Approach on Engine Combustion Chamber -

Technical Paper
2016-01-2333
DOI: https://doi.org/10.4271/2016-01-2333

Published 2016-10-17 by SAE International in United States

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Select Reduction of Heat Loss and Improvement of Thermal Efficiency by Application of “Temperature Swing” Insulation to Direct-Injection Diesel Engines

Reduction of Heat Loss and Improvement of Thermal Efficiency by Application of “Temperature Swing” Insulation to Direct-Injection Diesel Engines

SAE International Journal of Engines

Journal Article
2016-01-0661

Published 2016-04-05 by SAE International in United States

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Select Development of Instantaneous Temperature Measurement Technique for Combustion Chamber Surface and Verification of Temperature Swing Concept

Development of Instantaneous Temperature Measurement Technique for Combustion Chamber Surface and Verification of Temperature Swing Concept

Technical Paper
2016-01-0675
DOI: https://doi.org/10.4271/2016-01-0675

Published 2016-04-05 by SAE International in United States

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Select High Efficiency Diesel Engine with Low Heat Loss Combustion Concept - Toyota’s Inline 4-Cylinder 2.8-Liter ESTEC 1GD-FTV Engine -

High Efficiency Diesel Engine with Low Heat Loss Combustion Concept - Toyota’s Inline 4-Cylinder 2.8-Liter ESTEC 1GD-FTV Engine -

Technical Paper
2016-01-0658
DOI: https://doi.org/10.4271/2016-01-0658

Published 2016-04-05 by SAE International in United States

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Select Concept of “Temperature Swing Heat Insulation” in Combustion Chamber Walls, and Appropriate Thermo-Physical Properties for Heat Insulation Coat

Concept of “Temperature Swing Heat Insulation” in Combustion Chamber Walls, and Appropriate Thermo-Physical Properties for Heat Insulation Coat

SAE International Journal of Engines

Journal Article
2013-01-0274

Published 2013-04-08 by SAE International in United States

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Select Heat Insulation by "Temperature Swing" in Combustion Chamber Walls (1. The Investigation of the Appropriate Thermo-Physical Properties for Heat Insulation Coat)

Heat Insulation by "Temperature Swing" in Combustion Chamber Walls (1. The Investigation of the Appropriate Thermo-Physical Properties for Heat Insulation Coat)

Technical Paper
2012-08-0227

Published 2012-05-23 by Society of Automotive Engineers of Japan in Japan

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Select Analysis of CO Emission Sources in Diesel Combustion (Third Report)~CO Reduction Techniques and its Validation

Analysis of CO Emission Sources in Diesel Combustion (Third Report)~CO Reduction Techniques and its Validation

Technical Paper
2012-08-0340

Published 2012-05-23 by Society of Automotive Engineers of Japan in Japan

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Select Analysis of CO Emission Sources in Diesel Combustion (Second Report)~Validation of Numerical Simulation and Analysis of CO Emission Sources

Analysis of CO Emission Sources in Diesel Combustion (Second Report)~Validation of Numerical Simulation and Analysis of CO Emission Sources

Technical Paper
2011-08-0658

Published 2011-10-12 by Society of Automotive Engineers of Japan in Japan

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Select Analysis of CO Emission Sources in Diesel Combustion (First Report)~In-Cylinder CO Imaging Using 2-Photon Excitation LIF

Analysis of CO Emission Sources in Diesel Combustion (First Report)~In-Cylinder CO Imaging Using 2-Photon Excitation LIF

Technical Paper
2011-08-0096

Published 2011-10-12 by Society of Automotive Engineers of Japan in Japan

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Select A Robustness-Focused Shape Optimization Method for Intake Ports

A Robustness-Focused Shape Optimization Method for Intake Ports

Technical Paper
2009-01-1777
DOI: https://doi.org/10.4271/2009-01-1777

Published 2009-06-15 by SAE International in United States

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