Combustion in a porous medium-advances and applications D Trimis, F Durst Combustion science and technology 121 (1-6), 153-168, 1996 | 518 | 1996 |
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 | 304 | 2000 |
Theoretical and numerical investigation of flow stability in porous materials applied as volumetric solar receivers M Becker, T Fend, B Hoffschmidt, R Pitz-Paal, O Reutter, V Stamatov, ... Solar energy 80 (10), 1241-1248, 2006 | 171 | 2006 |
Porous burners for low emission combustion: An experimental investigation C Keramiotis, B Stelzner, D Trimis, M Founti Energy 45 (1), 213-219, 2012 | 155 | 2012 |
Hydrogen production by thermal partial oxidation of hydrocarbon fuels in porous media based reformer Z Al-Hamamre, S Voß, D Trimis International Journal of Hydrogen Energy 34 (2), 827-832, 2009 | 139 | 2009 |
Application of the porous burner technology in energy- and heat-engineering. S Mossbauer, O Pickenacker, K Pickenacker, D Trimis Clean Air 3 (2), 185-198, 2002 | 133 | 2002 |
Power-to-gas through high temperature electrolysis and carbon dioxide methanation: reactor design and process modeling E Giglio, FA Deorsola, M Gruber, SR Harth, EA Morosanu, D Trimis, ... Industrial & Engineering Chemistry Research 57 (11), 4007-4018, 2018 | 109 | 2018 |
A simple and efficient method for the evaluation of effective thermal conductivity of open-cell foam-like structures MAA Mendes, S Ray, D Trimis International Journal of Heat and Mass Transfer 66, 412-422, 2013 | 104 | 2013 |
Computational efficiency improvements of the radiative transfer problems with or without conduction––a comparison of the collapsed dimension method and the discrete transfer method SC Mishra, P Talukdar, D Trimis, F Durst International journal of heat and mass transfer 46 (16), 3083-3095, 2003 | 103 | 2003 |
Power-to-Gas through thermal integration of high-temperature steam electrolysis and carbon dioxide methanation-Experimental results M Gruber, P Weinbrecht, L Biffar, S Harth, D Trimis, J Brabandt, ... Fuel Processing Technology 181, 61-74, 2018 | 101 | 2018 |
Combustion of low calorific gases from landfills and waste pyrolysis using porous medium burner technology Z Al-Hamamre, S Diezinger, P Talukdar, F Von Issendorff, D Trimis Process Safety and Environmental Protection 84 (4), 297-308, 2006 | 96 | 2006 |
Quasi-DNS dataset of a piloted flame with inhomogeneous inlet conditions T Zirwes, F Zhang, P Habisreuther, M Hansinger, H Bockhorn, M Pfitzner, ... Flow, Turbulence and Combustion 104, 997-1027, 2020 | 94 | 2020 |
Innovative ceramic materials for porous-medium burners O Pickenäcker, K Pickenäcker, H HEYMER, W TAUSCHER, F JANSEN, ... Interceram 48 (5), 326-330, 1999 | 86 | 1999 |
Heat transfer characteristics of a porous radiant burner under the influence of a 2-D radiation field P Talukdar, SC Mishra, D Trimis, F Durst Journal of Quantitative Spectroscopy and Radiative Transfer 84 (4), 527-537, 2004 | 80 | 2004 |
Adiabatic premixed combustion in a gaseous fuel porous inert media under high pressure and temperature: Novel flame stabilization technique A Bakry, A Al-Salaymeh, H Ala’a, A Abu-Jrai, D Trimis Fuel 90 (2), 647-658, 2011 | 76 | 2011 |
Heat transfer analysis of a two-dimensional rectangular porous radiant burner SC Mishra, M Steven, S Nemoda, P Talukdar, D Trimis, F Durst International communications in heat and mass transfer 33 (4), 467-474, 2006 | 76 | 2006 |
Investigation on the thermal flame thickness for lean premixed combustion of low calorific H2/CO mixtures within porous inert media S Voss, MAA Mendes, JMC Pereira, S Ray, JCF Pereira, D Trimis Proceedings of the Combustion Institute 34 (2), 3335-3342, 2013 | 74 | 2013 |
Laminar burning velocity measurements using the Heat Flux method and numerical predictions of iso-octane/ethanol blends for different preheat temperatures F Rau, S Hartl, S Voss, M Still, C Hasse, D Trimis Fuel 140, 10-16, 2015 | 64 | 2015 |
Detailed and simplified models for evaluation of effective thermal conductivity of open-cell porous foams at high temperatures in presence of thermal radiation MAA Mendes, P Talukdar, S Ray, D Trimis International Journal of Heat and Mass Transfer 68, 612-624, 2014 | 64 | 2014 |
Porous medium combustor versus combustion systems with free flames D Trimis, F Durst, O Pickenäcker, K Pickenäcker Advances in Heat Transfer Enhancement and Energy Conservation, 339-345, 1997 | 64 | 1997 |