| Mobility size and mass of nascent soot particles in a benchmark premixed ethylene flame J Camacho, C Liu, C Gu, H Lin, Z Huang, Q Tang, X You, C Saggese, Y Li, ... Combustion and Flame 162 (10), 3810-3822, 2015 | 173 | 2015 |
| SpraySyn—a standardized burner configuration for nanoparticle synthesis in spray flames F Schneider, S Suleiman, J Menser, E Borukhovich, I Wlokas, A Kempf, ... Review of Scientific Instruments 90 (8), 2019 | 126 | 2019 |
| A genetic algorithm‐based method for the automatic reduction of reaction mechanisms N Sikalo, O Hasemann, C Schulz, A Kempf, I Wlokas International Journal of Chemical Kinetics 46 (1), 41-59, 2014 | 66 | 2014 |
| Investigation of the sampling nozzle effect on laminar flat flames L Deng, A Kempf, O Hasemann, OP Korobeinichev, I Wlokas Combustion and Flame 162 (5), 1737-1747, 2015 | 65 | 2015 |
| Large eddy simulations of nanoparticle synthesis from flame spray pyrolysis A Rittler, L Deng, I Wlokas, AM Kempf Proceedings of the Combustion Institute 36 (1), 1077-1087, 2017 | 62 | 2017 |
| On the evolution of the flow field in a spark ignition engine P Janas, I Wlokas, B Böhm, A Kempf Flow, Turbulence and Combustion 98, 237-264, 2017 | 57 | 2017 |
| A genetic algorithm–based method for the optimization of reduced kinetics mechanisms N Sikalo, O Hasemann, C Schulz, A Kempf, I Wlokas International Journal of Chemical Kinetics 47 (11), 695-723, 2015 | 54 | 2015 |
| Initial reaction steps during flame synthesis of iron-oxide nanoparticles S Kluge, L Deng, O Feroughi, F Schneider, M Poliak, A Fomin, V Tsionsky, ... CrystEngComm 17 (36), 6930-6939, 2015 | 51 | 2015 |
| Simulation of nasal flow by lattice Boltzmann methods M Finck, D Hänel, I Wlokas Computers in biology and medicine 37 (6), 739-749, 2007 | 51 | 2007 |
| Numerical investigation of the process steps in a spray flame reactor for nanoparticle synthesis C Weise, J Menser, SA Kaiser, A Kempf, I Wlokas Proceedings of the Combustion Institute 35 (2), 2259-2266, 2015 | 49 | 2015 |
| Mechanism of iron oxide formation from iron pentacarbonyl‐doped low‐pressure hydrogen/oxygen flames I Wlokas, A Faccinetto, B Tribalet, C Schulz, A Kempf International Journal of Chemical Kinetics 45 (8), 487-498, 2013 | 47 | 2013 |
| Experimental and Numerical Investigation of Fe(CO)5 Addition to a Laminar Premixed Hydrogen/Oxygen/Argon Flame S Staude, C Hecht, I Wlokas, C Schulz, B Atakan Zeitschrift für physikalische Chemie 223 (4-5), 639-649, 2009 | 44 | 2009 |
| Tunable diode laser absorption sensor for the simultaneous measurement of water film thickness, liquid-and vapor-phase temperature H Yang, D Greszik, I Wlokas, T Dreier, C Schulz Applied Physics B 104, 21-27, 2011 | 43 | 2011 |
| Laser-based in situ measurement and simulation of gas-phase temperature and iron atom concentration in a pilot-plant nanoparticle synthesis reactor OM Feroughi, S Hardt, I Wlokas, T Hülser, H Wiggers, T Dreier, C Schulz Proceedings of the Combustion Institute 35 (2), 2299-2306, 2015 | 39 | 2015 |
| Experimental and numerical study of a HMDSO-seeded premixed laminar low-pressure flame for SiO2 nanoparticle synthesis OM Feroughi, L Deng, S Kluge, T Dreier, H Wiggers, I Wlokas, C Schulz Proceedings of the Combustion Institute 36 (1), 1045-1053, 2017 | 35 | 2017 |
| Impact of ambient pressure on titania nanoparticle formation during spray-flame synthesis S Hardt, I Wlokas, C Schulz, H Wiggers Journal of nanoscience and nanotechnology 15 (12), 9449-9456, 2015 | 34 | 2015 |
| Analysis of mild ignition in a shock tube using a highly resolved 3D-LES and high-order shock-capturing schemes JT Lipkowicz, I Wlokas, AM Kempf Shock Waves 29 (4), 511-521, 2019 | 33 | 2019 |
| Large eddy simulation of an internal combustion engine using an efficient immersed boundary technique TM Nguyen, F Proch, I Wlokas, AM Kempf Flow, Turbulence and Combustion 97, 191-230, 2016 | 33 | 2016 |
| Insights into the mechanism of combustion synthesis of iron oxide nanoparticles gained by laser diagnostics, mass spectrometry, and numerical simulations: a mini-review I Rahinov, J Sellmann, MR Lalanne, M Nanjaiah, T Dreier, S Cheskis, ... Energy & Fuels 35 (1), 137-160, 2020 | 31 | 2020 |
| On the mechanism of nanoparticle formation in a flame doped by iron pentacarbonyl M Poliak, A Fomin, V Tsionsky, S Cheskis, I Wlokas, I Rahinov Physical Chemistry Chemical Physics 17 (1), 680-685, 2015 | 29 | 2015 |
Andreas KempfProfessor of Fluid Dynamics在 uni-due.de 的电子邮件经过验证
