Computational singular perturbation analysis of detonation development and intensity at SI engine conditions
(2021)
Presentation / Conference Contribution
Dimitrova, I., Luong, M., Sanal, S., Im, H., & Tingas, S. (2021, December). Computational singular perturbation analysis of detonation development and intensity at SI engine conditions. Paper presented at 13th Asia-Pacific Conference on Combustion (ASPACC
All Outputs (3)
Computational investigation of the chemical dynamics in detonation development at SI engine conditions (2021)
Presentation / Conference Contribution
Dimitrova, I. D., Sanal, S., Bau Luong, M., Tingas, S., & Im, H. G. (2021, November). Computational investigation of the chemical dynamics in detonation development at SI engine conditions. Paper presented at 74th Annual Meeting of the APS Division of FlThis study employs algorithmic tools from the computational singular perturbation (CSP) approach and statistics to investigate detonation development in SI engines using 2D simulations at different intensity levels – strong and mild detonations. The... Read More about Computational investigation of the chemical dynamics in detonation development at SI engine conditions.
Identification of Key Processes and Periods in a Model of Human Brain Energy Metabolism by Algorithmic Decomposition with Computational Singular Perturbation (2021)
Presentation / Conference Contribution
Patsatzis, D., Tingas, S., Sarathy, M., Goussis, D., & Jolivet, R. (2021, July). Identification of Key Processes and Periods in a Model of Human Brain Energy Metabolism by Algorithmic Decomposition with Computational Singular Perturbation. Paper presentedEnergetic considerations play a crucial role in brain function and disease. The study of brainenergy metabolism is, however, rendered difficult by a relative lack of experimental tools thatcan probe the contributions of different intri... Read More about Identification of Key Processes and Periods in a Model of Human Brain Energy Metabolism by Algorithmic Decomposition with Computational Singular Perturbation.