Algorithmic identification of the reactions that support or oppose the development of explosive modes in n-heptane/air autoignition

Research Output

The dynamics of two stage adiabatic auto-ignition of a homogeneousn-heptane/air mixture at constant volume isanalyzed algorithmically, using the Computational Singular Perturbation (CSP) method. The fast dynamics of thisreactive system become exhausted, while the slow dynamics is characterized by time scales that are of explosive char-acter; i.e. the components of the system that generate these scales tend to lead the system away from equilibrium. Thereactions that are responsible for the generation of these time scales and the species that relate with the explosivemodes are identified with CSP-tools.

Type:

Conference Paper (unpublished)
Date:

30 March 2015
Publication Status:

Unpublished
Funders:

European Science Foundation

http://researchrepository.napier.ac.uk/output/2675808 <p>Manias, D. M., Tingas, E., & Goussis, D. A. (2015, March). <i>Algorithmic identification of the reactions that support or oppose the development of explosive modes in n-heptane/air autoignition</i>. Paper presented at 7th European Combustion Meeting, Budapest, Hungary</p>

Citation

Manias, D. M., Tingas, E., & Goussis, D. A. (2015, March). Algorithmic identification of the reactions that support or oppose the development of explosive modes in n-heptane/air autoignition. Paper presented at 7th European Combustion Meeting, Budapest, Hungary

Authors

Dr Stathis Tingas

Lecturer
School of Computing Engineering and the Built Environment

0131 455 2304

E.Tingas@napier.ac.uk

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Authors

Dr Stathis Tingas

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Files currently unavailable for download , please contact E.Tingas@napier.ac.uk to request a copy

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