Gunther Brenner
Gunther Brenner
Professor, Mechanik
Verified email at
Cited by
Cited by
Numerical and experimental investigation of matrix-stabilized methane/air combustion in porous inert media
G Brenner, K Pickenäcker, O Pickenäcker, D Trimis, K Wawrzinek, ...
Combustion and flame 123 (1-2), 201-213, 2000
Numerical simulations of single phase reacting flows in randomly packed fixed-bed reactors and experimental validation
H Freund, T Zeiser, F Huber, E Klemm, G Brenner, F Durst, G Emig
Chemical engineering science 58 (3-6), 903-910, 2003
CFD-calculation of flow, dispersion and reaction in a catalyst filled tube by the lattice Boltzmann method
T Zeiser, P Lammers, E Klemm, YW Li, J Bernsdorf, G Brenner
Chemical engineering science 56 (4), 1697-1704, 2001
Numerical analysis of the pressure drop in porous media flow with lattice Boltzmann (BGK) automata
J Bernsdorf, G Brenner, F Durst
Computer physics communications 129 (1-3), 247-255, 2000
Unsteady CFD simulations of a pump in part load conditions using scale-adaptive simulation
A Lucius, G Brenner
International Journal of Heat and Fluid Flow 31 (6), 1113-1118, 2010
Lattice BGK direct numerical simulation of fully developed turbulence in incompressible plane channel flow
P Lammers, KN Beronov, R Volkert, G Brenner, F Durst
Computers & fluids 35 (10), 1137-1153, 2006
Numerical simulation and evaluation of velocity fluctuations during rotating stall of a centrifugal pump
A Lucius, G Brenner
Journal of Fluids Engineering 133 (8), 2011
Hydrodynamics at small Reynolds numbers
J Happel, G Brenner
Moscow, Mir 418, 1976
Analysis of the flow field and pressure drop in fixed-bed reactors with the help of lattice Boltzmann simulations
T Zeiser
Philosophical Transactions of the Royal Society of London. Series A …, 2002
Numerical investigation of sonochemical reactors considering the effect of inhomogeneous bubble clouds on ultrasonic wave propagation
R Jamshidi, B Pohl, UA Peuker, G Brenner
Chemical engineering journal 189, 364-375, 2012
Three-dimensional thermal lattice Boltzmann simulation of natural convection in a cubic cavity
CS Nor Azwadi, T Tanahashi
International Journal of Modern Physics B 21 (01), 87-96, 2007
Combustion modeling of turbulent jet diffusion H2/air flame with detailed chemistry
X Zhou, Z Sun, G Brenner, F Durst
International Journal of Heat and Mass Transfer 43 (12), 2075-2088, 2000
Simulation of a 2D channel flow around a square obstacle with lattice-Boltzmann (BGK) automata
J Bernsdorf, T Zeiser, G Brenner, F Durst
International Journal of Modern Physics C 9 (08), 1129-1141, 1998
Role of Marangoni convection in Si–Czochralski melts—Part II: 3D predictions with crystal rotation
V Kumar, B Basu, S Enger, G Brenner, F Durst
Journal of Crystal Growth 255 (1-2), 27-39, 2003
Dissipation of ultrasonic wave propagation in bubbly liquids considering the effect of compressibility to the first order of acoustical Mach number
R Jamshidi, G Brenner
Ultrasonics 53 (4), 842-848, 2013
Numerical simulation of turbulent jet flow and combustion
X Zhou, Z Sun, F Durst, G Brenner
Computers & Mathematics with Applications 38 (9-10), 179-191, 1999
Experimental study of continuous ultrasonic reactors for mixing and precipitation of nanoparticles
B Pohl, R Jamshidi, G Brenner, UA Peuker
Chemical engineering science 69 (1), 365-372, 2012
Role of Marangoni convection in Si-Czochralski melts, part I: 3D predictions without crystal
V Kumar, B Basu, S Enger, G Brenner, F Durst
Journal of crystal growth 253 (1-4), 142-154, 2003
Effect of thermocapillary convection in an industrial Czochralski crucible: numerical simulation
V Kumar, G Biswas, G Brenner, F Durst
International journal of heat and mass transfer 46 (9), 1641-1652, 2003
Simulating fluid flow over sinusoidal surfaces using the lattice Boltzmann method
A Al-Zoubi, G Brenner
Computers & Mathematics with Applications 55 (7), 1365-1376, 2008
The system can't perform the operation now. Try again later.
Articles 1–20