SIP, Innovative Combustion Technology,  "Gasoline Combustion Team

Gasoline surrogate detailed kinetic model revision 2.0 (SIP-Gd2.0) and reduced reaction mechanism revision 2.0 (SIP-Gr2.0)

“Gasoline-surrogate detailed kinetic model revision 2.0 (SIP-Gd2.0) “and “Gasoline surrogate reduced kinetic model revision 2.0 (SIP-Gr2.0)”. They are a part of outcomes of the research conducted by the Gasoline Combustion Team for the SIP’s Innovative Combustion Technology program.
These mechanisms are applicable to common five-component surrogate fuels ‘S5H and S5R’, which are used for experiments and validation for this project. These surrogate fuels are verified to emulate the basic combustion characteristics of the practical gasoline, such as autoignition properties and burning velocity.
Although reference literature describes details of compositions and constituents, not only basic combustion properties of each constituent but also combustion properties as mixture are validated for this project in cooperation with affiliated universities. There still exist areas for continued improvement for these mechanisms; however, these models are to be released as a revision 2.0 upon completion of the validation at a certain level. By releasing this revision 2.0, we expect to obtain some suggestions and inputs for further improvement from users when our reaction mechanisms are utilized for research projects including testing.

Cite these mechanisms by referring to the following publication.
[1] Akira Miyoshi and Yasuyuki Sakai, Construction of a Detailed Kinetic Model for Gasoline Surrogate Mixtures, Transactions of Society of Automotive Engineers of Japan, 48 (5), 1021?1026 (2017) #20174744. [in Japanese]
[2] Akira Miyoshi and Yasuyuki Sakai, Construction of a Detailed Kinetic Model for Gasoline Surrogate Mixtures, Proceedings of the 2017 JSAE Annual Congress (Spring), Yokohama, Japan, May 24?26 (2017). [in Japanese]
[3] Yasuyuki Sakai and Akira Miyoshi, Development of Reduced Chemical Kinetics Mechanism of Gasoline Surrogate Fuel, The 28th Internal Combustion Engine Symposium, Presentation No. 59, Paper No. 20178019, Fukuoka, Japan, December 6-8 (2017). [in Japanese]
[4] Yasuyuki Sakai, Keizo Hasegawa, and Akira Miyoshi, Development of Reduced Chemical Kinetics Mechanism of Gasoline Surrogate Fuel with Oxygenated Compounds, The 29th Internal Combustion Engine Symposium, Presentation No. 34, Paper No. 20183155, Kyoto, Japan, November 26-28 (2018). [in Japanese]

Akira Miyoshi, Hiroshima University
SIP, Innovative Combustion Technology, Gasoline Combustion Team
January 29, 2019

Gasoline surrogate detailed kinetic model revision 2.0 (SIP-Gd2.0) and reduced reaction mechanism revision 2.0 (SIP-Gr2.0)
1289KB

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