| Inert gas influence on the laminar burning velocity of methane-air mixtures M Mitu, V Giurcan, D Razus, D Oancea Journal of hazardous materials 321, 440-448, 2017 | 142 | 2017 |
| Temperature and pressure influence on explosion pressures of closed vessel propane–air deflagrations D Razus, V Brinzea, M Mitu, D Oancea Journal of hazardous materials 174 (1-3), 548-555, 2010 | 128 | 2010 |
| Influence of inert gas addition on propagation indices of methane–air deflagrations M Mitu, M Prodan, V Giurcan, D Razus, D Oancea Process Safety and Environmental Protection 102, 513-522, 2016 | 125 | 2016 |
| Propagation indices of methane-air explosions in closed vessels M Mitu, V Giurcan, D Razus, M Prodan, D Oancea Journal of Loss Prevention in the Process Industries 47, 110-119, 2017 | 104 | 2017 |
| Temperature and pressure influence on maximum rates of pressure rise during explosions of propane–air mixtures in a spherical vessel D Razus, V Brinzea, M Mitu, C Movileanu, D Oancea Journal of hazardous materials 190 (1-3), 891-896, 2011 | 103 | 2011 |
| Explosion characteristics of LPG–air mixtures in closed vessels D Razus, V Brinzea, M Mitu, D Oancea Journal of Hazardous Materials 165 (1-3), 1248-1252, 2009 | 101 | 2009 |
| Influence of pressure, temperature and vessel volume on explosion characteristics of ethanol/air mixtures in closed spherical vessels M Mitu, E Brandes Fuel 203, 460-468, 2017 | 91 | 2017 |
| Experimental and computed burning velocities of propane–air mixtures D Razus, D Oancea, V Brinzea, M Mitu, C Movileanu Energy Conversion and Management 51 (12), 2979-2984, 2010 | 78 | 2010 |
| Explosion parameters of methanol–air mixtures M Mitu, E Brandes Fuel 158, 217-223, 2015 | 73 | 2015 |
| Laminar Burning Velocities of Hydrogen-Blended Methane–Air and Natural Gas–Air Mixtures, Calculated from the Early Stage of p(t) Records in a Spherical Vessel M Mitu, D Razus, V Schroeder Energies 14 (22), 7556, 2021 | 66 | 2021 |
| Normal burning velocity and propagation speed of ethane–air: Pressure and temperature dependence M Mitu, D Razus, V Giurcan, D Oancea Fuel 147, 27-34, 2015 | 64 | 2015 |
| Temperature and pressure influence on ethane–air deflagration parameters in a spherical closed vessel M Mitu, V Giurcan, D Razus, D Oancea Energy & fuels 26 (8), 4840-4848, 2012 | 60 | 2012 |
| Mitigation effects on the explosion safety characteristic data of ethanol/air mixtures in closed vessel M Mitu, E Brandes, W Hirsch Process Safety and Environmental Protection 117, 190-199, 2018 | 58 | 2018 |
| Burning velocity of propane–air mixtures from pressure–time records during explosions in a closed spherical vessel D Razus, V Brinzea, M Mitu, C Movileanu, D Oancea Energy & fuels 26 (2), 901-909, 2012 | 56 | 2012 |
| Burning Velocity of Liquefied Petroleum Gas (LPG)− air mixtures in the presence of exhaust gas D Razus, V Brinzea, M Mitu, D Oancea Energy & fuels 24 (3), 1487-1494, 2010 | 54 | 2010 |
| Inerting effect of the combustion products on the confined deflagration of liquefied petroleum gas–air mixtures D Razus, V Brinzea, M Mitu, C Movileanu, D Oancea Journal of Loss Prevention in the process Industries 22 (4), 463-468, 2009 | 52 | 2009 |
| Prediction of flammability limits of fuel-air and fuel-air-inert mixtures from explosivity parameters in closed vessels V Giurcan, D Razus, M Mitu, D Oancea Journal of Loss Prevention in the Process Industries 34, 65-71, 2015 | 49 | 2015 |
| Influence of initial pressure and vessel’s geometry on deflagration of stoichiometric methane–air mixture in small-scale closed vessels M Mitu, V Giurcan, D Razus, D Oancea Energy & fuels 34 (3), 3828-3835, 2020 | 47 | 2020 |
| Experimental and numerical study of laminar burning velocity of ethane–air mixtures of variable initial composition, temperature and pressure M Mitu, D Razus, V Giurcan, D Oancea Energy & fuels 28 (3), 2179-2188, 2014 | 47 | 2014 |
| Spark ignition and propagation properties of methane-air mixtures from early stages of pressure history M Prodan, M Mitu, D Razus, D Oancea Rev. Roum. Chim 61 (4), 299-305, 2016 | 44 | 2016 |
