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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
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
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
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
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
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
Analysis of CO Emission Sources in Diesel Combustion (Third Report)~CO Reduction Techniques and its Validation
- Technical Paper
- 2012-08-0340
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
Analysis of CO Emission Sources in Diesel Combustion (First Report)~In-Cylinder CO Imaging Using 2-Photon Excitation LIF
- Technical Paper
- 2011-08-0096
A Robustness-Focused Shape Optimization Method for Intake Ports
- Technical Paper
- 2009-01-1777
- DOI: https://doi.org/10.4271/2009-01-1777