Publications

Journal Publications

9. A. Kokernak, J. Mathew, R. Sivaramakrishnan, S.J. Klippenstein, J. Jayachandran, “Flame kinetics at scramjet-engine-relevant conditions: role of prompt dissociation of weakly-bound radicals”, in press, Combust. Flame. [manuscript][supplementary material]

8. J. Mathew, J. Tavares, J. Jayachandran, “Accurately Measuring Slowly Propagating Flame Speeds: Application to Ammonia/Air Flames”, in press, Combust. Flame. [manuscript][supplementary material]

7. J. Tavares, J. Jayachandran, “Dynamics of slowly propagating flames: role of the Rayleigh-Taylor instability”, Combust. Flame 269 (2024) 113656. [manuscript] [supplementary material]

6. N. Dexter-Brown, J. Jayachandran, “Delineating the effects of ignition propensity and Markstein number on deflagration-to-detonation transition”, Combust. Flame 265 (2024) 113439. [manuscript] [supplementary material]

5. J. Tavares, V. Gururajan, J. Jayachandran, “Effects of radiation heat loss on planar and spherical hydrofluorocarbon/air flames”, Combust. Flame 258 (2023) 113067. [manuscript] [supplementary material]

4.   Y. J. Wu, J. Scarponi, A. C. Powell, J. Jayachandran, “Magnesium Hydride Slurry: A Potential Net-Zero Carbon Dioxide Emitting Aviation Fuel”, Fuel 333 (2023) 126232. [manuscript] [supplementary material]

3.   Y. Wang, J. Jayachandran, Z. Chen, “Effects of pressure rise rate on laminar flame speed under normal and engine-relevant conditions”, Combust. Theor. Model., 24 (2020) 953-964.

2.   C. Xiouris, T. Ye, J. Jayachandran, F.N. Egolfopoulos, “Laminar flame speeds under engine-relevant conditions: Uncertainty quantification and minimization in spherically expanding flame experiments”, Combust. Flame 163 (2016) 270-283.

1.   J. Jayachandran, R. Zhao, F.N. Egolfopoulos, “Determination of laminar flame speeds using stagnation and spherically expanding flames: Molecular transport and radiation effects”, Combust. Flame 161 (2014) 2305-2316.

Peer Reviewed Conference Proceedings

4.   A. Ansari, J. Jayachandran, F.N. Egolfopoulos, “Parameters influencing the burning rate of laminar flames propagating into a reacting mixture”, Proc. Combust. Inst. 37 (2019) 1513-1520.

3.   J. Jayachandran, F.N. Egolfopoulos, “Effect of unsteady pressure rise on flame propagation and near-cold-wall ignition”, Proc. Combust. Inst. 37 (2019) 1639-1646.

2.   J. Jayachandran, F.N. Egolfopoulos, “Thermal and Ludwid-Soret diffusion effects on near-boundary ignition behavior of reacting mixtures”, Proc. Combust. Inst. 36 (2017) 1505-1511.

1.    J. Jayachandran, A. Lefebvre, R. Zhao, F. Halter, E. Varea, B. Renou, F.N. Egolfopoulos, “A study of propagation of spherically expanding and counterflow flames using direct measurements and numerical simulations”, Proc. Combust. Inst. 35 (2015) 695-702.

Non Peer Reviewed Publications

4.   N. Dexter-Brown, A. Hollander, J. Jayachandran, “Investigation of the sensitivity of the deflagration-to-detonation transition to the ignition propensity and thermo-diffusive properties of mixtures”, Proceedings of the Spring Technical Meeting of the Eastern States Section of The Combustion Institute, March 2022.

3.   J. Tavares, E. Levi, V. Gururajan, J. Jayachandran, “Radiation effects in hydrofluorocarbon/air flames: analysis and modeling”, Proceedings of the Spring Technical Meeting of the Eastern States Section of The Combustion Institute, March 2022. – selected for the “George H. Markstein Best Paper Award”

2.   N. Dexter-Brown, N. DiReda, A. Hollander, J. Jayachandran, “Sensitivity of Deflagration-to-Detonation Transition to the Ignition Propensity of the Mixture”, Proceedings of the 12th U.S. National Combustion Meeting (held online), May 2021.

1.   J. Scarponi, Y.J. Wu, A.C. Powell, J. Jayachandran, “Slurry of Magnesium Hydride and Jet Fuel: A Potential Net-Zero Carbon Dioxide Emitting Aviation Fuel”, Proceedings of the 12th U.S. National Combustion Meeting (held online), May 2021.