The mechanism by which CH2O and H2O2 additives affect the autoignition of CH4/air mixtures DM Manias, EA Tingas, CE Frouzakis, K Boulouchos, DA Goussis
Combustion and Flame 164, 111-125, 2016
73 2016 Investigation of the turbulent flame structure and topology at different Karlovitz numbers using the tangential stretching rate index DM Manias, EA Tingas, FEH Pérez, RM Galassi, PP Ciottoli, M Valorani, ...
Combustion and Flame 200, 155-167, 2019
44 2019 NO Formation and Autoignition Dynamics during Combustion of H2 O-Diluted NH3 /H2 O2 Mixtures with Air AT Khalil, DM Manias, DC Kyritsis, DA Goussis
Energies 14 (1), 84, 2020
32 2020 Topological and chemical characteristics of turbulent flames at mild conditions DM Manias, EA Tingas, Y Minamoto, HG Im
Combustion and Flame 208, 86-98, 2019
32 2019 CH4/air homogeneous autoignition: A comparison of two chemical kinetics mechanisms EA Tingas, DM Manias, SM Sarathy, DA Goussis
Fuel 223, 74-85, 2018
29 2018 Algorithmic Analysis of Chemical Dynamics of the Autoignition of NH3 –H2 O2 /Air Mixtures AT Khalil, DM Manias, EA Tingas, DC Kyritsis, DA Goussis
Energies 12 (23), 4422, 2019
28 2019 Algorithmic Identification of the Reactions Related to the Initial Development of the Time Scale That Characterizes Autoignition DM Manias, DJ Diamantis, DA Goussis
Journal of Energy Engineering 141 (2), C4014015, 2015
23 2015 NH3 vs. CH4 autoignition: A comparison of chemical dynamics DM Manias, DG Patsatzis, DC Kyritsis, DA Goussis
Combustion Theory and Modelling 25 (6), 1110-1131, 2021
21 2021 Chemical dynamics of the autoignition of near-stoichiometric and rich methanol/air mixtures S Rabbani, DM Manias, DC Kyritsis, DA Goussis
Combustion Theory and Modelling 26 (2), 289-319, 2022
16 2022 Computational singular perturbation method and tangential stretching rate analysis of large scale simulations of reactive flows: Feature tracking, time scale characterization … M Valorani, F Creta, PP Ciottoli, R Malpica Galassi, DA Goussis, HN Najm, ...
Data analysis for direct numerical simulations of turbulent combustion: From …, 2020
15 2020 The effect of fuel additives on the autoignition dynamics of rich methanol/air mixtures DM Manias, S Rabbani, DC Kyritsis, DA Goussis
Fuel 323, 124275, 2022
14 2022 Dominant dynamics of n-butanol/air autoignition and the influence of additives S Rabbani, DM Manias, DC Kyritsis, DA Goussis
Combustion and Flame 242, 112173, 2022
12 2022 Analysis of a gradient-elastic beam on Winkler foundation and applications to nano-structure modelling DM Manias, TK Papathanasiou, SI Markolefas, EE Theotokoglou
European Journal of Mechanics-A/Solids 56, 45-58, 2016
10 2016 Dynamics analysis of a turbulent methane flame in mild combustion conditions DM Manias, AE Tingas, HG Im, Y Minamoto
AIAA Scitech 2019 Forum, 1731, 2019
8 2019 The initiation of methane/air autoignition: the important chemical components for various initial conditions DM Manias, DA Goussis
Journal of Physics: Conference Series 574 (1), 012112, 2015
6 2015 Algorithmic identification of the reactions that support or oppose the development of explosive modes in n-heptane/air autoignition DM Manias, EA Tingas, DA Goussis
Proceedings of the European Combustion Meeting, Budapest, Hungary 30, 2015
4 2015 Comparative review of the chemical dynamics underlying five models of ammonia fuel oxidation S Rabbani, DM Manias, DC Kyritsis, DA Goussis
Fuel 352, 129063, 2023
3 2023 Mechanism of cold-spot autoignition in a hydrogen/air mixture DM Manias, A Sow, EA Tingas, FEH Perez, HG Im, DA Goussis
arXiv preprint arXiv:2210.06953, 2022
1 2022 OME2− 4/air mixtures: The structure and propagation mechanism of their laminar premixed flames MI Radaideh, DM Manias, DC Kyritsis, DA Goussis
Fuel 363, 131004, 2024
2024 Time scale dynamics of COVID-19 pandemic waves: The case of Greece DM Manias, DG Patsatzis, DA Goussis
arXiv preprint arXiv:2312.07260, 2023
2023