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2018  




2018

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  • Alomar, O.R.; Mendes, M.A.A.; Ray, S.; Trimis, D., (2018). Numerical investigation of complete evaporation process inside porous evaporator using staggered and non-staggered grid arrangements. International Journal of Thermal Sciences, 129, 56-72.(doi:10.1016/j.ijthermalsci.2018.02.022)

  • Bhagwan, R.; Habisreuther, P.; Zarzalis, N., (2018). Experimental and Numerical Investigations of Characteristics of an Axial Jet in the Vicinity of a Confined Concentric Swirl Flow in a Model Combustor, in Proceedings of the ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition (GT2018), ASME, June 11-15, Oslo, Norway, p. GT2018-75028, (doi:10.1115/GT2018-75028).

  • Dominik Schollenberger, Siegfried Bajohr, Manuel Gruber, Rainer Reimert, Thomas Kolb, (2018). Scale‐Up of Innovative Honeycomb Reactors for Power‐to‐Gas Applications – The Project Store&Go. Chem. Ing. Tech., 90, (5), 696-702.(doi:10.1002/cite.201700139)

  • Emanuele Giglio; Fabio Alessandro Deorsola; Manuel Gruber; Stefan Raphael Harth; Eduard Alexandru Morosanu; Dimosthenis Trimis; Samir Bensaid; Raffaele Pirone, (2018). Power-to-Gas through High Temperature Electrolysis and Carbon Dioxide Methanation: Reactor Design and Process Modeling. Ind. Eng. Chem. Res., 57, 4007-4018.(doi:10.1021/acs.iecr.8b00477)

  • Fruhstorfer, J.; Demuth, C.; Goetze, P.; Aneziris, C.G.; Ray, S,; Gross, U.; Trimis, D., (2018). How the coarse fraction influences the microstructure and the effective thermal conductivity of alumina castables - An experimental and numerical study. Journal of the European Ceramic Society, 38, (1), 303-312.(doi:10.1016/j.jeurceramsoc.2017.07.038)

  • M. Gruber, P. Weinbrecht, S. Harth, D. Trimis, D. Schollenberger, S. Bajohr, R. Blumentritt, O. Posdziech, J. Brabandt; Poster: Power-to-Gas Effizienz > 75 % durch thermische Integration von Hochtemperatur Dampfelektrolyse und CO2-Methanisierung - das HELMETH Projekt. Jahrestreffen der ProcessNet-Fachgruppe Energieverfahrenstechnik, Frankfurt a.M., 2018.

  • M. Gruber; C. Wieland; P. Habisreuther; D. Trimis; D. Schollenberger; S. Bajohr; O. von Morstein and S. Schirrmeister, (2018). Modeling and Design of a Catalytic Wall Reactor for the Methanation of Carbon Dioxide. Chem. Ing. Tech., 90, (5), 615-624.(doi:10.1002/cite.201700160)

  • M. Gruber, P. Weinbrecht, L. Biffar, S. Harth, D. Trimis, J. Brabandt, O. Posdziech, R. Blumentritt, (2018). Power-to-Gas through thermal integration of high-temperature steam electrolysis and carbon dioxide methanation - Experimental results. Fuel Processing Technology, 181, 61-74.(doi:10.1016/j.fuproc.2018.09.003)

  • Habisreuther, P.; Stelzner, B.; Vlavakis, P.; Loukou, A.; Zarzalis, N.; Trimis, D.; (2018). Vortrag: Structure transition from oxygen-enhanced to oxy-fuel methane non-premixed flames near extinction. 2nd International Workshop on Oxy-Fuel Combustion, February 14.-15., Bochum, Germany,

  • Hagen, F.; Loukou, A.; Häber, T.; Vlavakis, P.; Bockhorn, H.; Suntz, R.; Trimis, D.; Poster: Correlations of Reactivity with Structural and Optical Properties of Soot Particles for Application in Gasoline Direct Injection Engine Exhaust Gas Aftertreatment.. International Symposium on Combustion, Dublin, Ireland, July 29.-August 3., WIPP 4P069, 2018.

  • Harth, S.; (2018). Vortrag: Power-to-SNG mit hohem Wirkungsgrad: Das HELMETH Projekt. Jahrestagung "10 Jahre KIT-Zentrum Energie", Karlsruhe, 26. Juni,

  • S. Harth; M. Gruber; D. Trimis; O. Posdziech; J. Brabandt; (2018). Vortrag: Highly efficient Power-to-Gas Process by Integration of High-Temperature Electrolysis and CO2 Methanation. 13th European SOFC & SOE Forum, Lucerne Switzerland, 3 – 6 July 2018,

  • Horn, H.; Kolb, T.; Trimis, D.; Klinger, J., (2018). Engler-Bunte-Institut des Karlsruher Instituts für Technologie (KIT) und TZW: DVGW-Technologiezentrum Wasser im Jahre 2017, Teil 1. gwf Gas + Energie, 159, (06),

  • Horn, H.; Kolb, T.; Trimis, D.; Klinger, J., (2018). Engler-Bunte-Institut des Karlsruher Instituts für Technologie (KIT) und TZW: DVGW-Technologiezentrum Wasser im Jahre 2017, Teil 2. gwf Gas + Energie, 159, (07/08),

  • Montenegro Camacho, Y.S.; Bensaid, S.; Lorentzou, S.; Vlachos, N.; Pantoleontos, G.; Konstandopoulos, A.; Luneau, M.; Meunier, F.C.; Guilhaume, N.; Schuurman, Y.; Werzner, E.; Herrmann, A.; Rau, F.; Krause, H.; Rezaei, E.; Ortona, A.; Gianella, S.; Khinsky, A.; Antonini, M.; Marchisio, L.; Vilardo, F.; Trimis, D.; Fino, D, (2018). Development of a robust and efficient biogas processor for hydrogen production. Part 2: Experimental campaign. International Journal of Hydrogen Energy, 43, (1), 161-177.(doi:10.1016/j.ijhydene.2017.10.177)

  • Mätzing, H.; Baumann, W.; Bologa, A.; Loukou, A.; Teuscher, N.; Vlavakis, P.; Gehrmann, H.-J.; Paur, H. R.; Trimis, D.; Stapf, D., (2018). Deconvolution of nanoparticle size distributions measured in combustion processes, in International Aerosol Conference (IAC 2018), St.Louis, MO, September 2-7, .

  • Mätzing, H.; Vlavakis, P.; Sentko, M.; Loukou, A.; Stelzner, B.; Trimis, D.; Stapf, D., (2018). Deconvolution of soot particle size distributions, in Proceedings of the Joint Meeting German and Italian Sections of the Combustion Institute. 41st Meeting of the Italian Section of the Combustion Institute, Sorronto, Italy, May 23-26, .

  • Mätzing, H.; Baumann, W.; Bologa, A.; Loukou, A.; Teuscher, N.; Vlavakis, P.; Gehrmann, H.-J.; Paur, H.-R.; Trimis, D.; Stapf, D., (2018). Deconvolution of nanoparticle size distributions measured in combustion processes, in Aerosol Technology (AT2018), Bilbao, Spain, June 18-20, .

  • Mätzing, H.; Vlavakis, P.; Sentko, M.; Loukou, A.; Stelzner, B.; Trimis, D.; Stapf, D., (2018). Deconvolution of Soot Particle Size Distributions, in Proceedings of Joint Meeting of the German and Italian Sections of the Combustion Institute, Sorrento, Italy, 23-26 May, p. IV4, (ISBN 978-88-88104-22-5), .

  • Müller, T.; Goßmann, A.; Kühn, J.; Etzold, M.; Stelzner, B.; Zarzalis, N.; Durst, F.; Trimis, D., (2018). A Low Power Liquid Fueled Burner using a Novel Atomization Concept, in Proceedings of Joint Meeting of the German and Italian Sections of the Combustion Institute, Sorrento, Italy, 23-26 May, p. X2, (ISBN 978-88-88104-22-5), .

  • Müller, T.; Kadel, K.; Habisreuther, P.; Trimis, D.; Zarzalis, N.; Sänger, A.; Jakobs, T.; Kolb, T., (2018). Influence of Reactor Pressure on the Primary Jet Breakup of High-Viscosity Fuels: Basic Research for Simulation-Assisted Design of Low-Grade Fuel Burner, in Proceedings of the ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition (GT2018), ASME, June 11-15, Oslo, Norway, p. GT2018-75950, (doi:10.1115/GT2018-75950).

  • Müller, T.; Kadel, K.; Habisreuther, P.; Trimis, D.; Zarzalis, N.; Sänger, A.; Jakobs, T.; Kolb, T., (2018). Simulation of the Primary Jet Breakup of Non-Newtonian Fuels: Basic Research for Simulation-Assisted Design of Low-Grade Fuel Burner, in Proceedings of the ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition (GT2018), ASME, June 11-15, Oslo, Norway, p. GT2018-75945, (doi:10.1115/GT2018-75945).

  • Sebbar, N.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Trimis, D., (2018). Investigation of S2 + Air Combustion, in Proceedings of Joint Meeting of the German and Italian Sections of the Combustion Institute, Sorrento, Italy, 23-26 May, p. VI10, (ISBN 978-88-88104-22-5), .

  • Sebbar, N.; Zirwes, T.; Habisreuther, T.; Bozzelli, J. W.; Bockhorn, H.; Trimis, D., (2018). S2 Air Combustion: Reaction Kinetics, Flame Structure and Laminar Flame Behavior. Energy Fuels, 32, (10), 10184-10193.(doi:10.1021/acs.energyfuels.8b01019)

  • Vlavakis, P.; Loukou, A.; Trimis, D.; Poster: Experimental Investigation on the Influence of Premixing on Soot Formation in Isooctane Counterflow Flames. International Symposium on Combustion, Dublin, Ireland, July 29.-August 3., WIPP 4P055, 2018.

  • Weis, C.; Faller, S.; Zarzalis, N.; (2018). Vortrag: Bestimmung der mageren Verlöschgrenze hochturbulenter vorgemischter Strahlflammen. Jahrestreffen der ProcessNet-Fachgruppen Mehrphasenströmungen (MPH), Wärmeund Stoffübertragung (WSUE), Computional Fluid Dynamics (CFD), Hochtemperaturtechnik (HTT), Abfallbehandlung und Wertstoffrückgewinnung (AuW), Kristallisation (KRI) und Partikelmesstechnik (PMT), Bremen, 6.–9. März 2018,

  • Zhang, F.; Zirwes, T.; Nawroth, H.; Li, N.; Habisreuther, P.; Bockhorn, H.; Trimis, D.; Paschereit, C.O., (2018). Spectral Response of Different Combustion Models in LES of Direct Combustion Noise, in Proceedings of Joint Meeting of the German and Italian Sections of the Combustion Institute, Sorrento, Italy, 23-26 May, p. I8, (ISBN 978-88-88104-22-5), .

  • Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Bockhorn, H., (2018). Large Eddy Simulation of Turbulent Flow in a Fan-Stirred Combustion Vessel, in Proceedings of Joint Meeting of the German and Italian Sections of the Combustion Institute, Sorrento, Italy, 23-26 May, p. I10, (ISBN 978-88-88104-22-5), .

  • Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H., (2018). Towards reduction of computational cost for large-scale combustion modelling with a multi-regional concept. Progress in Computational Fluid Dynamics, 18, (6), 333-346.(doi:10.1504/PCFD.2018.096616)

  • Zhang, F; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Trimis, D.; Nawroth, H; Paschereit, C.O., (2018). Impact of Combustion Modeling on the Spectral Response of Heat Release in LES. Combustion, Science and Technology, 191, (9), 1520-1540.(doi:10.1080/00102202.2018.1558218)

  • Zirwes, T.; Zhang, F.; Denev, J.A.; Habisreuther, P.; Bockhorn, H.; Automated Code Generation for Maximizing Performance of Detailed Chemistry Calculations in OpenFOAM. In High Performance Computing in Science and Engineering '17, Nagel W., Kröner D., Resch M. (ed.), Springer, Cham, p. 189-204, (doi:10.1007/978-3-319-68394-2_11) 2018.

  • Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, Jordan A.; Bockhorn, H.; Trimis, D.; Poster: Highly Resolved Numerical Simulation of Regime Transition in Mixed-Mode Flames. International Symposium on Combustion, Dublin, Ireland, July 29. - August 2., WIPP 1P116, 2018.

  • T. Zirwes; F. Zhang; J. A. Denev; P. Habisreuther; H. Bockhorn; D. Trimis; Poster: Generation of a Database with Detailed Numerical Simulation of Mixed-Mode Combustion. NIC Symposium 2018, February 22-23, ST 6, 2018.

  • Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J.A.; Bockhorn, H.; Trimis, D.; Poster: A Reliability Assessment of Highly Resolved Numerical Simulation for Turbulent Combustion. Combustion-DNS Strategy & Data Analysis Workshop, Sorrento, Italy, 22-23 May, 2018.

  • Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J.A.; Bockhorn, H.; Trimis, D.; Poster: Database and Prediction of the Regime Transition for the Sandia/Sydney Mixed-Mode Flame. Combustion-DNS Strategy & Data Analysis Workshop, Sorrento, Italy, 22-23 May, 2018.

  • Zirwes, Thorsten; Zhang, Feichi; Denev, Jordan A.; Habisreuther, Peter; Bockhorn, Henning; Trimis, Dimosthenis, (2018). Optimized Chemistry and Detailed Transport for Massively Parallel Simulations of Turbulent Combustion with OpenFOAM, in The 13th OpenFOAM Workshop (OFW13), vol. 13, June 24-29, Shanghai, China, .

  • Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J.A.; Bockhorn, H., (2018). Automated Code Generation for Maximizing Performance of Detailed Chemistry Calculations in OpenFOAM. InSIDE, Innovatives Supercomputing in Deutschland, (Spring 2018),

  • Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J. A.; Bockhorn, H.; Trimis, D., (2018). Optimizing Load Balancing of Reacting Flow Solvers in OpenFOAM for High Performance Computing, in Proc. of 6th ESI OpenFOAM User Conference, ESI-OpenCFD, Oct. 17-19, Hamburg, Germany , p. 1-13, .

  • Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D., (2018). Detailed Transport and Performance Optimization for Massively Parallel Simulations of Turbulent Combustion with OpenFOAM, in The 13th OpenFOAM Workshop, 24.–29. June, Shanghai, China, p. 20-041 , .