| S. Velagala, P. Raval, S.C.S. Chowhan, G. Esmaeelzade, M. Beyer, and H. Grosshans, Simulation of the flow of an explosive atmosphere exposed to a hot surface, Journal of Loss Prevention in the Process Industries, in press |
| R. Sadanandan, J. Brunzendorf, M. Paul, H. Grosshans, and D. Markus, An experimental investigation of scalar mixing and flame structure of a partially premixed flame, Combustion Science and Technology, in press |
| J.-R. Kummer, S. Essmann, D. Markus, H. Grosshans, and U. Maas, Assessing ignitions of explosive gas mixtures by low-energetic electrical discharges using OH-LIF and 1D-simulations, Combustion Science and Technology, in press |
| G. Esmaeelzade, K. Moshammer, D. Markus, and H. Grosshans, Parametrical investigation for the optimization of spherical jet-stirred reactors design using large eddy simulations, SN Applied Sciences, 3, 766, 2021 |
| M. Zeybek and H. Grosshans, Eulerian formulation for the triboelectric charging of polydisperse powder flows, Physics of Fluids, 33, 63304, 2021 |
| H. Grosshans, C. Bissinger, M. Calero, and M.V. Papalexandris, The effect of electrostatic charges on particle-laden duct flows, Journal of Fluid Mechanics, 909, A21, 2021 |
| N. Susanti and H. Grosshans, Measurement of the deposit formation during pneumatic transport of PMMA powder, Advanced Powder Technology, 31, 3597–3609, 2020 |
| R. Sadanandan, J. Brunzendorf, M. Paul, H. Grosshans, and D. Markus, An experimental investigation of scalar mixing and flame structure of a partially premixed flame, Combustion Science and Technology, 2020 |
| C. Sula, H. Grosshans, and M.V. Papalexandris, Assessment of droplet breakup models for spray flow simulations, Flow, Turbulence and Combustion, 105(3), 889–914, 2020 |
| C. Bissinger and H. Grosshans, A new computational algorithm for the interaction between electrically charged particles, SN Applied Sciences, 2, 965, 2020 |
| E. Klahn and H. Grosshans, An accurate and efficient algorithm to model the agglomeration of macroscopic particles, Journal of Computational Physics, 407, 109232, 2020 |
| S. Essmann, D. Markus, H. Grosshans, and U. Maas, Experimental investigation of the stochastic early flame propagation after ignition by a low-energy electrical discharge, Combustion and Flame, 211, 44–53, 2020 |
| S. Essmann, S. Spörhase, H. Grosshans, D. Markus, U. Maas, Experimentelle Untersuchung der Zündung durch elektrische Entladungen geringer Energie, PTB-Mitteilungen, 130, 1, 47–54, 2020 |
| H. Grosshans, L. Villafañe, A. Banko, and M.V. Papalexandris, Case study on the influence of electrostatic charges on particle concentration in turbulent duct flows, Powder Technology, 357, 46–53, September 2019 |
| E. Klahn and H. Grosshans, Modeling the agglomeration of electrostatically charged particles, Journal of Physics: Conference Series, 1322, 012026, 2019 |
| G. Esmaeelzade, K. Moshammer, R. Fernandes, D. Markus, and H. Grosshans, Numerical study of the mixing inside a jet stirred reactor using large eddy simulations, Flow, Turbulence and Combustion, 102, 331–343, 2019 |
| C. Liu, J. Yu, Z. Wang, M. Sun, H Wang, and H. Grosshans, Characteristics of hydrogen jet combustion in a high-enthalpy supersonic crossflow, Physics of Fluids, 31, 046105, 2019 |
| L. Ceresiat, H. Grosshans, and M.V. Papalexandris, Powder electrification during pneumatic transport: the role of the particle properties and flow rates, Journal of Loss Prevention in the Process Industries, 58, 60–69, 2019 |
| F. Seitz, D. Markus, H. Grosshans, and R. Schießl, Effects of nozzle geometry on the re-ignition by hot gas jets, Combustion Science and Technology, 191(2), 296–310, 2019 |
| R. Shekhar, S. Gortschakow, H. Grosshans, U. Gerlach, and D. Uhrlandt, Numerical investigation of transient, low-power metal vapour discharges occurring in near limit ignitions of flammable gas, Journal of Physics D: Applied Physics, 52(4), 045202, 2018 |
| E. Hodzic, G. Esmaeelzade, K. Moshammer, R. Fernandes, D. Markus, M. Geron, J. Early, and H. Grosshans, Analysis of the turbulent flow structure in a jet stirred reactor using proper orthogonal decomposition, Journal of Physics: Conference Series, 1065, 202002, 2018 |
| H. Grosshans, Modulation of particle dynamics in dilute duct flows by electrostatic charges, Physics of Fluids, 30, 083303, 2018 |
| H. Grosshans and M.V. Papalexandris, Exploring the mechanism of inter-particle charge diffusion, The European Physical Journal Applied Physics, 82(1), 11101, 2018 |
| S. Essmann, S. Spörhase, H. Grosshans, and D. Markus, Precise triggering of electrical discharges by ultraviolet laser radiation for the investigation of ignition processes, Journal of Electrostatics, 91, 34–40, February 2018 |
| H. Grosshans, R.-Z. Szász, and M.V. Papalexandris, Influence of the rotor configuration on the electrostatic charging of helicopters, AIAA Journal, 56(1), 368–375, January 2018 |
| H. Grosshans and M.V. Papalexandris, On the accuracy of the numerical computation of the electrostatic forces between charged particles, Powder Technology, 322, 185–194, September 2017 |
| L. Cao, W. Fei, H. Grosshans, and N. Cao, Simulation of underwater explosions initiated by high-pressure gas bubbles of various initial shapes, Applied Sciences, 7, 1–22, August 2017 |
