| The extension of the ILDM concept to reaction–diffusion manifolds V Bykov, U Maas Combustion Theory and Modelling 11 (6), 839-862, 2007 | 324 | 2007 |
| Problem adapted reduced models based on Reaction–Diffusion Manifolds (REDIMs) V Bykov, U Maas Proceedings of the Combustion Institute 32 (1), 561-568, 2009 | 115 | 2009 |
| Simple global reduction technique based on decomposition approach V Bykov, V Gol'Dshtein, U Maas Combustion Theory and Modelling 12 (2), 389-405, 2008 | 92 | 2008 |
| Extension of the ILDM method to the domain of slow chemistry V Bykov, U Maas Proceedings of the Combustion Institute 31 (1), 465-472, 2007 | 68 | 2007 |
| The extension of the reaction/diffusion manifold concept to systems with detailed transport models U Maas, V Bykov Proceedings of the Combustion Institute 33 (1), 1253-1259, 2011 | 62 | 2011 |
| On a modified version of ILDM approach: asymptotic analysis based on integral manifolds V Bykov, I Goldfarb, V Gol'Dshtein, U Maas IMA journal of applied mathematics 71 (3), 359-382, 2006 | 60 | 2006 |
| Flexible energy conversion and storage via high-temperature gas-phase reactions: The piston engine as a polygeneration reactor B Atakan, SA Kaiser, J Herzler, S Porras, K Banke, O Deutschmann, ... Renewable and Sustainable Energy Reviews 133, 110264, 2020 | 50 | 2020 |
| Analysis of transient combustion with the use of contemporary CFD techniques V Bykov, A Kiverin, A Koksharov, I Yakovenko Computers & Fluids 194, 104310, 2019 | 44 | 2019 |
| Deflagration-to-detonation transition in an unconfined space A Koksharov, V Bykov, L Kagan, G Sivashinsky Combustion and Flame 195, 163-169, 2018 | 43 | 2018 |
| Singularly perturbed vector fields V Bykov, I Goldfarb, V Gol'Dshtein Journal of Physics: Conference Series 55 (1), 28, 2006 | 42 | 2006 |
| REDIM reduced modeling of quenching at a cold wall including heterogeneous wall reactions C Strassacker, V Bykov, U Maas International Journal of Heat and Fluid Flow 69, 185-193, 2018 | 38 | 2018 |
| Hydrogen/air burner-stabilized flames at elevated pressures VV Gubernov, V Bykov, U Maas Combustion and Flame 185, 44-52, 2017 | 36 | 2017 |
| Investigation of the hierarchical structure of kinetic models in ignition problems V Bykov, U Maas Zeitschrift für physikalische chemie 223 (4-5), 461-479, 2009 | 36 | 2009 |
| On transient behavior of non-premixed counter-flow diffusion flames within the REDIM based model reduction concept V Bykov, A Neagos, U Maas Proceedings of the Combustion Institute 34 (1), 197-203, 2013 | 35 | 2013 |
| System decomposition technique for spray modelling in CFD codes V Bykov, I Goldfarb, V Gol’dshtein, S Sazhin, E Sazhina Computers & fluids 36 (3), 601-610, 2007 | 34 | 2007 |
| Experimental observation of diffusive-thermal oscillations of burner stabilized methane-air flames S Nechipurenko, T Miroshnichenko, N Pestovskii, S Tskhai, B Kichatov, ... Combustion and Flame 213, 202-210, 2020 | 30 | 2020 |
| Fast and slow invariant manifolds in chemical kinetics V Bykov, V Gol’dshtein Computers & Mathematics with Applications 65 (10), 1502-1515, 2013 | 30 | 2013 |
| REDIM reduced modeling of flame quenching at a cold wall–The influence of detailed transport models and detailed mechanisms C Strassacker, V Bykov, U Maas Combustion Science and Technology 191 (2), 208-222, 2019 | 29 | 2019 |
| Implementation of ILDMs based on a representation in generalized coordinates J Bauer, V Bykov, U Maas | 28 | 2006 |
| Thermal explosion in a hot gas mixture with fuel droplets: a two reactant model V Bykov, I Goldfarb, V Gol'dshtein, JB Greenberg Combustion Theory and Modelling 6 (2), 339, 2002 | 28 | 2002 |
