@inproceedings{MaussNetzellLehtiniemietal., author = {Mauß, Fabian and Netzell, Karl and Lehtiniemi, Harry and Gogan, Adina and Sund{\´e}n, Bengt}, title = {Aspects of Modeling Soot Formation in Turbulent Diffusion Flames}, language = {en} } @inproceedings{MaussLehtiniemiAmneusetal., author = {Mauß, Fabian and Lehtiniemi, Harry and Amn{\´e}us, Per and Balthasar, M. and Karlsson, A. and Magnusson, I. and Gogan, Adina and Sund{\´e}n, Bengt}, title = {Modelling Diesel Spray Ignition Using Detailed Chemistry with a Flamelet Progress Variable Approach}, language = {en} } @inproceedings{MaussMoreacBlurocketal., author = {Mauß, Fabian and Mor{\´e}ac, Gladys and Blurock, Edward S. and Gogan, Adina and Sund{\´e}n, Bengt and Lehtiniemi, Harry}, title = {Automatic Generation of a Detailed Mechanism for the Oxidation of n-Decane}, language = {en} } @inproceedings{MaussGoganSundenetal., author = {Mauß, Fabian and Gogan, Adina and Sund{\´e}n, Bengt and Lehtiniemi, Harry}, title = {"Stochastic Model for the Investigation of the Influence of Turbulent Mixing on Engine Knock"}, language = {en} } @inproceedings{MaussAhmediSundenetal., author = {Mauß, Fabian and Ahmedi, Abdelhadi and Sund{\´e}n, Bengt and Gogan, Adina and Lehtiniemi, Harry}, title = {"Analysis of an Extended Ionization Equilibrium in the Post-flame Gases for Spark Ignited Combustion"}, doi = {10.1115/ICEF2004-0922}, language = {en} } @inproceedings{MaussLehtiniemiBalthasaretal., author = {Mauß, Fabian and Lehtiniemi, Harry and Balthasar, M. and Magnusson, I.}, title = {Modeling Diesel Engine Combustion with Detailed Chemistry using a Progress Variable Approach}, series = {Powertrain \& Fluid Systems conference and exhibition, San Antonio, Texas USA, October 24 - 27, 2005}, booktitle = {Powertrain \& Fluid Systems conference and exhibition, San Antonio, Texas USA, October 24 - 27, 2005}, publisher = {SAE International}, address = {Warrendale, Pa.}, language = {en} } @inproceedings{MaussLehtiniemiZhangetal., author = {Mauß, Fabian and Lehtiniemi, Harry and Zhang, Y. and Rawat, Rajesh}, title = {"Efficient 3-D CFD Combustion Modeling with Transient Flamelet Models"}, language = {en} } @inproceedings{MaussEbenezerLehtiniemi, author = {Mauß, Fabian and Ebenezer, N. and Lehtiniemi, Harry}, title = {Adaptive Polynomial Tabulation (APT): A computationally economical strategy for the HCCI engine simulation of complex fuel}, language = {en} } @inproceedings{SamuelssonGoganNetzelletal., author = {Samuelsson, K. and Gogan, Adina and Netzell, Karl and Lehtiniemi, Harry and Sund{\´e}n, Bengt and Mauß, Fabian}, title = {Modeling Diesel Engine Combustion and Pollutant Formation using a Stochastic Reactor Model Approach}, series = {Book of abstracts, Fifth Symposium Towards Clean Diesel Engines, 2 - 3 June 2005, Lund, Sweden}, booktitle = {Book of abstracts, Fifth Symposium Towards Clean Diesel Engines, 2 - 3 June 2005, Lund, Sweden}, publisher = {Univ., Lund Institute of Technology}, address = {Lund}, language = {en} } @inproceedings{LehtiniemiMaussBalthasaretal., author = {Lehtiniemi, Harry and Mauß, Fabian and Balthasar, M. and Magnusson, I.}, title = {Diesel Spray Ignition using a Progress Variable Approach}, series = {Book of abstracts, Fifth Symposium Towards Clean Diesel Engines, 2 - 3 June 2005, Lund, Sweden}, booktitle = {Book of abstracts, Fifth Symposium Towards Clean Diesel Engines, 2 - 3 June 2005, Lund, Sweden}, publisher = {Univ., Lund Institute of Technology}, address = {Lund}, language = {en} } @misc{WenzelGezginSteineretal., author = {Wenzel, Paul and Gezgin, A. and Steiner, R{\"u}diger and Kr{\"u}ger, Christian and Netzell, Karl and Lehtiniemi, Harry and Mauß, Fabian}, title = {Modeling of the soot particle size distribution in diesel engines}, series = {Conference proceedings, Conference on Thermo- and Fluid Dynamic Processes in Diesel Engines, September 12th - 15th 2006, Valencia, Spain}, journal = {Conference proceedings, Conference on Thermo- and Fluid Dynamic Processes in Diesel Engines, September 12th - 15th 2006, Valencia, Spain}, publisher = {Univ. Polit{\´e}cnica}, address = {Valencia}, isbn = {84-9705-982-4}, pages = {397 -- 410}, language = {en} } @inproceedings{GoganLehtiniemiMaussetal., author = {Gogan, Adina and Lehtiniemi, Harry and Mauß, Fabian and Sunden, Bengt}, title = {Stochastic Reactor Model for Auto-Ignition Calculation in Spark Ignition Engines}, series = {Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium, April 3 - 6, 2005}, booktitle = {Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium, April 3 - 6, 2005}, address = {Louvain-la-Neuve}, language = {en} } @inproceedings{MaussLehtiniemiNetzell, author = {Mauß, Fabian and Lehtiniemi, Harry and Netzell, Karl}, title = {Calculating soot in a turbulent jet diffision flame using the unsteady flamelet model}, series = {Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium, April 3 - 6, 2005}, booktitle = {Proceedings of the European Combustion Meeting, Louvain-la-Neuve, Belgium, April 3 - 6, 2005}, publisher = {Combustion Inst.}, address = {Louvain-la-Neuve}, language = {en} } @misc{PasternakNakovMaussetal., author = {Pasternak, Michal and Nakov, Galin and Mauß, Fabian and Lehtiniemi, Harry}, title = {Aspects of 0D and 3D Modeling of Soot Formation for Diesel Engines}, series = {Combustion Science and Technology}, volume = {186}, journal = {Combustion Science and Technology}, number = {10-11}, issn = {1563-521X}, doi = {10.1080/00102202.2014.935213}, pages = {1517 -- 1535}, language = {en} } @inproceedings{LehtiniemiBorgMauss, author = {Lehtiniemi, Harry and Borg, Andreas and Mauß, Fabian}, title = {Conditional Moment Closure with a Progress Variable Approach}, series = {COMODIA 2012, proceedings of the Eighth International Conference on Modeling and Diagnostics for Advanced Engine Systems, July 23 - 26, 2012, Fukuoka, Japan}, booktitle = {COMODIA 2012, proceedings of the Eighth International Conference on Modeling and Diagnostics for Advanced Engine Systems, July 23 - 26, 2012, Fukuoka, Japan}, publisher = {JSME}, address = {Tokyo}, pages = {548 -- 553}, language = {en} } @inproceedings{LehtiniemiBorgMauss, author = {Lehtiniemi, Harry and Borg, Andreas and Mauß, Fabian}, title = {Konditionierte Momenten-Schließung mit einem Fortschritts-Variablen-Ansatz}, series = {Motorische Verbrennung, aktuelle Probleme und moderne L{\"o}sungsans{\"a}tze XI. Tagung im Haus der Technik e.V., Ludwigsburg, 14./15. M{\"a}rz 2013}, booktitle = {Motorische Verbrennung, aktuelle Probleme und moderne L{\"o}sungsans{\"a}tze XI. Tagung im Haus der Technik e.V., Ludwigsburg, 14./15. M{\"a}rz 2013}, editor = {Leipertz, Alfred}, publisher = {ESYTEC Energie- u. Systemtechnik}, address = {Erlangen}, isbn = {978-3-931901-87-5}, pages = {347 -- 358}, language = {de} } @incollection{LehtiniemiBorgMauss, author = {Lehtiniemi, Harry and Borg, Andreas and Mauß, Fabian}, title = {Conditional Moment Closure with a Progress Variable Approach}, series = {Engine processes}, booktitle = {Engine processes}, publisher = {Expert Verlag}, address = {Renningen}, isbn = {978-3-8169-3222-2}, pages = {100 -- 111}, language = {en} } @misc{MatriscianoBorgPerlmanetal., author = {Matrisciano, Andrea and Borg, Anders and Perlman, Cathleen and Lehtiniemi, Harry and Pasternak, Michal and Mauß, Fabian}, title = {Soot Source Term Tabulation Strategy for Diesel Engine Simulations with SRM}, series = {SAE Technical Papers}, journal = {SAE Technical Papers}, number = {2015-24-2400}, issn = {0148-7191}, doi = {10.4271/2015-24-2400}, pages = {1 -- 15}, abstract = {In this work a soot source term tabulation strategy for soot predictions under Diesel engine conditions within the zero-dimensional Direct Injection Stochastic Reactor Model (DI-SRM) framework is presented. The DI-SRM accounts for detailed chemistry, in-homogeneities in the combustion chamber and turbulence-chemistry interactions. The existing implementation [1] was extended with a framework facilitating the use of tabulated soot source terms. The implementation allows now for using soot source terms provided by an online chemistry calculation, and for the use of a pre-calculated flamelet soot source term library. Diesel engine calculations were performed using the same detailed kinetic soot model in both configurations. The chemical mechanism for n-heptane used in this work is taken from Zeuch et al. [2] and consists of 121 species and 973 reactions including PAH and thermal NO chemistry. The engine case presented in [1] is used also for this work. The case is a single-injection part-load passenger car Diesel engine with 27 \% EGR fueled with regular Diesel fuel. The two different approaches are analyzed and a detailed comparison is presented for the different soot processes globally and in the mixture fraction space. The contribution of the work presented in this paper is that a method which allows for a direct comparison of soot source terms - calculated online or retrieved from a flamelet table - without any change in the simulation setup has been developed within the SRM framework. It is a unique tool for model development. Our analysis supports our previous conclusion [1] that flamelet soot source terms libraries can be used for multi-dimensional modeling of soot formation in Diesel engines.}, language = {en} } @inproceedings{MatriscianoSeidelKlaueretal., author = {Matrisciano, Andrea and Seidel, Lars and Klauer, Christian and Lehtiniemi, Harry and Mauß, Fabian}, title = {An a priori thermodynamic data analysis based chemical lumping method for the reduction of large and multi-component chemical kinetic mechanisms}, series = {5th International Workshop on Model Reduction in Reacting Flows, L{\"u}bbenau, 2015}, booktitle = {5th International Workshop on Model Reduction in Reacting Flows, L{\"u}bbenau, 2015}, pages = {2}, abstract = {A chemical species lumping approach for reduction of large hydrocarbons and oxygenated fuels is presented. The methodology is based on an a priori analysis of the Gibbs free energy of the isomer species which is then used as main criteria for the evaluation of lumped group. Isomers with similar Gibbs free energy are lumped assuming they present equal concentrations when applied to standard reactor conditions. Unlike several lumping approaches found in literature, no calculation results from the primary mechanism have been employed prior to the application of our chemical lumping strategy.}, language = {en} } @inproceedings{MatriscianoSeidelKlaueretal., author = {Matrisciano, Andrea and Seidel, Lars and Klauer, Christian and Mauß, Fabian and Lehtiniemi, Harry}, title = {An a priori thermodynamic data analysis based on chemical lumping method for the reduction of large and multi-component chemical kinetic mechanisms}, series = {5th Annual Internation Workshop on Model Reduction in Reaction Flows (IWMRRF) L{\"u}bbenau, 28.06-01.07.2015, proceedings}, booktitle = {5th Annual Internation Workshop on Model Reduction in Reaction Flows (IWMRRF) L{\"u}bbenau, 28.06-01.07.2015, proceedings}, pages = {2}, language = {en} } @inproceedings{LehtiniemiBorgMauss, author = {Lehtiniemi, Harry and Borg, Andreas and Mauß, Fabian}, title = {Modeling of Spray Combustion under Diesel Engine Conditions}, series = {Proceedings of the 2nd Conference on Engine Processes, July 2-3, 2015, Berlin, Germany}, booktitle = {Proceedings of the 2nd Conference on Engine Processes, July 2-3, 2015, Berlin, Germany}, editor = {Sens, Marc and Baar, Roland}, publisher = {Universit{\"a}tsverlag der TU Berlin}, address = {Berlin}, isbn = {978-3-7983-2768-9}, pages = {217 -- 249}, language = {en} } @misc{SvenssonLiShamunetal., author = {Svensson, Erik and Li, Changle and Shamun, Sam and Johansson, Bengt and Tuner, Martin and Perlman, Cathleen and Lehtiniemi, Harry and Mauß, Fabian}, title = {Potential Levels of Soot, NOx , HC and CO for Methanol Combustion}, series = {SAE Technical Papers}, journal = {SAE Technical Papers}, number = {2016-01-0887}, issn = {0148-7191}, doi = {10.4271/2016-01-0887}, pages = {17 Seiten}, abstract = {Methanol is today considered a viable green fuel for combustion engines because of its low soot emissions and the possibility of it being produced in a CO2-neutral manner. Methanol as a fuel for combustion engines have attracted interest throughout history and much research was conducted during the oil crisis in the seventies. In the beginning of the eighties the oil prices began to decrease and interest in methanol declined. This paper presents the emission potential of methanol. T-Φ maps were constructed using a 0-D reactor with constant pressure, temperature and equivalence ratio to show the emission characteristics of methanol. These maps were compared with equivalent maps for diesel fuel. The maps were then complemented with engine simulations using a stochastic reactor model (SRM), which predicts end-gas emissions. The SRM was validated using experimental results from a truck engine running in Partially Premixed Combustion (PPC) mode at medium loads. The SRM was able to predict the combustion in terms of pressure trace and rate of heat release. The CO and NOx emissions were matched, however, the HC emissions were underestimated. Finally, the trajectories from the SRM simulations were superimposed on the T-Φ maps to investigate the in engine conditions. The T-Φ map analysis shows that emission of soot are non-existent, formaldehyde can be avoided and that emissions of methane are kept at, compared to diesel combustion, low levels, however CO and NOx levels are similar to diesel combustion. These results were confirmed for engine conditions by the SRM simulations and the engine experiments.}, language = {en} }