The use of CFD for predicting and optimizing the performance of air conditioning equipment F Moukalled, S Verma, M Darwish International Journal of Heat and Mass Transfer 54 (1-3), 549-563, 2011 | 45 | 2011 |
Water mist suppression of a turbulent line fire JP White, S Verma, E Keller, A Hao, A Trouvé, AW Marshall Fire Safety Journal 91, 705-713, 2017 | 42 | 2017 |
Simulations of a turbulent line fire with a steady flamelet combustion model coupled with models for non-local and local gas radiation effects M Le, A Marchand, S Verma, R Xu, J White, A Marshall, T Rogaume, ... Fire Safety Journal 106, 105-113, 2019 | 28 | 2019 |
Simulations of the coupling between combustion and radiation in a turbulent line fire using an unsteady flamelet model R Xu, M Le, A Marchand, S Verma, T Rogaume, F Richard, J Luche, ... Fire Safety Journal 120, 103101, 2021 | 22 | 2021 |
Does sensitivity of measured scaling exponents for turbulent burning velocity to flame configuration prove lack of generality of notion of turbulent burning velocity? S Verma, AN Lipatnikov Combustion and Flame 173, 77-88, 2016 | 20 | 2016 |
RANS simulations of statistically stationary premixed turbulent combustion using flame speed closure model E Yasari, S Verma, AN Lipatnikov Flow, Turbulence and Combustion 94, 381-414, 2015 | 16 | 2015 |
Validation of leading point concept in RANS simulations of highly turbulent lean syngas-air flames with well-pronounced diffusional-thermal effects S Verma, F Monnier, A Lipatnikov International Journal of Hydrogen Energy 46 (13), 9222-9233, 2021 | 15 | 2021 |
Evaluation of OpenFOAM’s discretization schemes used for the convective terms in the context of fire simulations G Maragkos, S Verma, A Trouvé, B Merci Computers & Fluids 232, 105208, 2022 | 10 | 2022 |
A Large Eddy Simulation Study of the Effects of Wind and Slope on the Structure of a Turbulent Line Fire S Verma University of Maryland, College Park, 2019 | 6 | 2019 |
Simulations of a Turbulent Line Fire with a Steady Flamelet Combustion Model and Non-Gray Gas Radiation Models M Le, A Marchand, S Verma, J White, A Marshall, T Rogaume, F Richard, ... Journal of Physics: Conference Series 1107 (4), 042009, 2018 | 6 | 2018 |
A study of the canopy effect on fire regime transition using an objectively defined Byram convective number K Zhang, S Verma, A Trouvé, A Lamorlette Fire Safety Journal 112, 102950, 2020 | 5 | 2020 |
The structure of line fires at flame scale S Verma, M Ahmed, A Trouvé Wildland Fire Dynamics (Book), Cambridge University Press, 35-62 (Chapter 2), 2022 | 3 | 2022 |
A study of the structure of a turbulent line fire subjected to cross-flow using large eddy simulations A Trouve, S Verma Advances in Forest Fire Research, 325-333, 2018 | 3 | 2018 |
Understanding flame structure in wildfires using Large Eddy Simulations S Verma University of Maryland, College Park, 2014 | 3 | 2014 |
The Structure of a Turbulent Line Fire Subjected to Cross-Flow S Verma, A Trouve Spring Technical Meeting of the Eastern States Section of the Combustion …, 2018 | 2 | 2018 |
First MaCFP Workshop–Case 3 A Marchand, S Verma, A Trouvé | 2 | 2017 |
Numerical simulation of droplet formation in a microchannel device K Granado, S Anna, L Rojas-Solórzano, S Verma The International Journal of Multiphysics 7 (4), 2013 | 2 | 2013 |
Numerical Simulation of droplet formation in a microchannel device K Granado, L Rojas-Solorzano, S Anna, S Verma 2nd Latin American and Caribbean Conference on Theoretical and Applied Mechanics, 2012 | 2 | 2012 |
A numerical and theoretical study of the effects of wind on the structure of a turbulent line fire S Verma, A Trouve 11th US National Combustion Meeting, 2019 | | 2019 |
A study of the structure of a turbulent line fire subjected to cross-flow using large eddy simulations S Verma, A Trouve VIII International Conference on Forest Fire Research, 2018 | | 2018 |