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TU Dortmund
Faculty of Mathematics — Chair III of Applied Mathematics
Vogelpothsweg 87
44227 Dortmund
Germany
Phone: +49-(0)231-755-3076
Fax: +49-(0)231-755-5933
E-mail:

Prof. Dr. Stefan Turek

Prof. Dr. Stefan Turek
RoomM 1047
Telephone3075
(0231) 755-3076 (Sekretariat)
Telefax(0231) 755-5933
E-mail
www:Homepage


Curriculum Vitae

1964 Born in Saarbrücken
1983 Abitur, Willi-Graf-Gymnasium, Saarbrücken
1988 Dipl.Math., University of Saarland (Saarbrücken)
Title of Diploma Thesis: Mehrgitterverfahren für eine Klasse von nichtkonformen Finite Elemente Diskretisierungen
1998-1991 Research Assistant, University of Heidelberg, SFB 123, IWR Heidelberg
1991 Dr. rer.nat., Mathematics, University of Heidelberg
Title of Ph.D. Thesis: Ein robustes und effizientes Mehrgitterverfahren zur Lösung der instationären inkompressiblen, 2-D Navier-Stokes-Gleichungen mit diskret divergenzfreien finiten Elementen
1991-1994 Research Assistant, University of Heidelberg, SFB 359, IWR Heidelberg
1994-1999 Research Associate (Wiss. Assist., C1), University of Heidelberg, SFB 359, IWR Heidelberg
1998 Habilitation, Mathematics, University of Heidelberg
Title of Habilitation: Multilevel Pressure Schur Complement techniques for the numerical solution of the incompressible Navier-Stokes equations
Since Oct 1999 Professor (C4), Chair for Applied Mathematics & Numerics, University of Dortmund
Since Feb 2006 Dean of Department of Mathematics, TU Dortmund


Topics of research interest:
Numerics for PDE, mathematical modelling, numerical continuum mechanics, theory and application of Finite Element Methods, Multigrid/Domain Decomposition/ScaRC solvers, optimization with PDE, Computational Fluid Dynamics (CFD), Computational Structural Machanics (CSM), Hemodynamics, multiphase flow, fluid-structure interaction, Lattice Boltzmann equation, High Performance Computing, Hardware-oriented Numerics, GPU Computing, Unconventional HPC, Scientific Visualization, numerical grid generation, mathematical software engineering
Topics of teaching interest:
Courses in Applied and Numerical Mathematics, Numerics for PDE, Technomathematik, Computational Science & Engineering, Scientific Computing, High Performance Computing, Mathematics for engineers and computer scientists
Organisation of FEATLOW Summerschools which are international compact courses for students and post-docs to get familiar with mathematical and algorithmic techniques for Computational Fluid Dynamics, FEM methods and software and with the CFD software package FEATFLOW (as `Numerical Labs`)
Publications:
1 monography (Springer), 3 books (Springer, Birkhäuser), 1 DVD (Springer), all on numerical techniques for Computational Fluid Dynamics; more than 100 papers/conference contributions in the field of FEM methods, multigrid solvers, Computational Fluid Dynamics and Structural Mechanics, Mathematical Modelling, Chemical Engineering, Astrophysics and Geophysics, Scientific Visualization and High Performance Computing and GPU Computing, Chief scientist of the open-source software packages FEATFLOW for CFD and FEAST for High Performance Finite Element Methods
Projects:
Experience with numerous projects (DFG, BMBF) in education, research and application also with industrial background, mainly based on the FEATFLOW software (IANUS-Simulation)
Equipment:
Several multi-processor servers, parallel LINUX clusters, GPU clusters, special visualization engines, access to national and international parallel supercomputers
Working group:
Recently, my group consists of 1 assistant professor, appr. 10 Post-Docs, appr. 20 PhD students and several Diploma students, including 2 secretary offices and technical staff for computers and networks. Appr. 50% of my students, assistants and collaborators are foreign researchers; most of them are funded by external research or industrial grants
Further experience
Experience with organization of international conferences, invited as speaker on several conferences, experience with industrial projects (funded by industrial grants) and by DFG (German Research Association) and BMBF, member of several editorial boards of international journals

Tasks

  • Der Lehrstuhl III für Mathematik ist Teil des Institutes für Angewandte Mathematik der Fakultät für Mathematik an der TU Dortmund. Er wird geleitet von Prof. Dr. Turek und Prof. Dr. Kuzmin befaßt sich schwerpunktmäßig mit der numerischen Simulation von partiellen Differentialgleichungen auf der Basis von finiten Elementen. Nähere Informationen zu den speziellen Forschungsgebieten und Lehrveranstaltungen der einzelnen Mitglieder entnehmen Sie bitte den entsprechenden Webseiten.

Research Interests

  • Der Lehrstuhl für Angewandte Mathematik und Numerik (LS3) der Fakultät für Mathematik der TU Dortmund beschäftigt sich unter der Leitung von Prof. Dr. Stefan Turek und Prof. Dr. Dmitri Kuzmin hauptsächlich mit Numerik für Partielle Differentialgleichungen (PDEs), High Performance Computing und Wissenschaftlichem Rechnen, vor allem mit Anwendung in den Ingenieurwissenschaften (Strömungsmechanik, Strukturmechanik).
  • Auf mathematischer Seite untersuchen wir Finite Elemente Diskretisierungen, mit speziellen Anpassungen für Konvektions-Diffusions Gleichungen und Sattelpunktprobleme wie beispielsweise die inkompressiblen Navier-Stokes Gleichungen. Darüberhinaus gilt unser Hauptinteresse der Konzeption und Realisierung von schnellen Lösern vom Typ Mehrgitter, Gebietszerlegung und unserer speziellen Variante ScaRC.
  • Neben diesen mathematischen Arbeiten legen wir großen Wert auf die Entwicklung von hocheffizienter FEM-Software, unter besonderer Berücksichtigung von hardware-orientierten numerischen Ansätzen. Aktuell arbeiten wir an der Nachfolgersoftware unserer älteren Pakete FEAT2D/3D und FEATFLOW im Rahmen des FEAST Projektes, um damit ein neues High Performance FEM Tool zu generieren.
  • Solch hochoptimierte Software wird von mir und meinen - auch internationalen - Mitarbeitern verwendet, um komplexe Probleme der Strömungsmechanik mit industriellem Hintergrund zu lösen. Die Modellierung erfolgt zumeist auf der Basis von Varianten der inkompressiblen Navier-Stokes Gleichungen mit speziellen Erweiterungen wie beispielsweise nichtlinearer Viskosität (granular, nicht-newtonsch, viskoelastisch), Fluid-Struktur Wechselwirkung, Mehrphasenströmung mit chemischer Reaktion, freien Randwertproblemen mit Erstarrungsvorgängen, etc., die auch in direkten Industrieprojekten verwendet werden.
  • Für einen Überblick über Anwendungen, Beispiele und Projekte folgen Sie bitte den Links.

Teaching

WS1415


Papers

Authors Title / Event / Year Download

An up-to-date publication list can be found at http://www.mathematik.tu-dortmund.de/lsiii/cms/en/schriften.html

-Books-

Mandal, S.; Ouazzi, A.; Turek, S. Modified Newton Solver for Yield Stress Fluids, Karasözen, B., Manguoglu, M., Tezer-Sezgin, M., Göktepe, S., Ugur, %., 112, 481-490, Springer, 2016 [BibTeX]
Bastian, P.; Engwer, C.; Fahlke, J.; Geveler, M.; Göddeke, D.; Iliev, O.; Ippisch, O.; Milk, R.; Mohring, J.; Müthing, S.; Ohlberger, M.; Ribbrock, D.; Turek, S. Hardware-Based Efficiency Advances in the EXA-DUNE Project, Bungartz, H., Neumann, P., Nagel, W., 3-23, Springer, doi = 10.1007/978-3-319-40528-5_1, 2016 [BibTeX]
Kuzmin, D.; Löhner, R.; Turek, S. Flux-Corrected Transport, Springer, 2nd edition, 978-94-077-4037-2, 2012 [BibTeX]
Razzaq, M.; Turek, S.; Hron, J.; Acker, J.; Weichert, F.; Grunwald, I.; Roth, C.; Wagner, M.; Romeike, B. FUNDAMENTAL TRENDS IN FLUID-STRUCTURE INTERACTION, Galdi, G., Rannacher, R., Contemporary Challenges in Mathematical Fluid Dynamics and its applications, 171-199, World Scientific, Buch im LH vorhanden( ISSN: 10 981-4299-32-4/ 13 978-981-4299-32-9), 2010 [BibTeX]
Hartmann, S.; Meister, A.; Schäfer, M.; Turek, S. International Workshop on Fluid-Structure Interaction, Theory, Numerics and Applications, Kassel University Press, 978-3-89958-66-4, 2009 [BibTeX]
Galdi, G.; Rannacher, R.; Robertson, A.; Turek, S. Hemodynamical flows modelling, analysis and simulation, OWS-Oberwolfach Seminars, Birkhäuser, 978-3-7643-7805-9, 2008 [BibTeX]
Kuzmin, D.; Löhner, R.; Turek, S. Flux-Corrected Transport, Scientific Computation, Springer, Subtitle: Principles, Algorithms and Applications, 3-540-23730-5, 2005 [BibTeX]
Kilian, S.; Turek, S. Virtual Album of Fluid Motion, DVD, Springer, ISBN 3540149007, 2002 [BibTeX]
Turek, S. Efficient Solvers for Incompressible Flow Problems: An Algorithmic and Computational Approach, Springer, 3-540-65433-X, 1999 [BibTeX]

-Articles-

Sarmadi, P.; Mierka, O.; Turek, S.; Hormozi, S.; Frigaard, I. Three dimensional simulation of flow development of triple-layer lubricated pipeline transport, J. Non-Newtonian Fluid Mech., 274, 2019 [BibTeX]
Ruelmann, H.; Geveler, M.; Turek, S. On the prospects of using machine learning for the numerical simulation of PDEs: Training neural networks to assemble approximate inverses, Eccomas Newsletter, 27-32, 2018 [BibTeX]
Ouazzi, A.; Turek, S.; Damanik, H. A curvature-free multiphase flow solver via surface stress-based formulation, Int. J. Numer. Meth. Fluids, 88, 1, 18-31, https://doi.org/10.1002/fld.4509, 2018 [BibTeX]
Hohmann, L.; Greinert, T.; Mierka, O.; Turek, S.; Schembecker, G.; Bayraktar, E.; Wohlgemuth, K.; Kockmann, N. Analysis of Crystal Size Dispersion Effects in a Continuous Coiled Tubular Crystallizer: Experiments and Modelling, Crystal Growth & Design, accepted, 2018 [BibTeX]
Mierka, O.; Munir, M.; Spille, C.; Timmermann, J.; Schlüter, M.; Turek, S. Reactive liquid flow simulation of micromixers based on grid deformation techniques, Chemical Engineering and Technology, accepted, 2017 [BibTeX]
Kroll, J.; Turek, S.; Westervoß, P. Evaluation of nonlinear differential Models for the Simulation of Polymer Melts, KGK, März 2017, 317, 48-52, 2017 [BibTeX]
Geveler, M.; Turek, S. How applied sciences can accelerate the energy revolution-a pleading for energy awareness in scientific computing, Newsletter of the European Community on Computational Methods in Apllied Sciences, -, accepted, 2017 [BibTeX]
Geveler, M.; Turek, S. Fundamentals of a numerical cloud computing for applied sciences – Preparing cloud computing for Simulation-as-a-Service, European Commission Workshop on Cloud Computing Research Innovation Challenges for WP 2018-2020, -, http://ec.europa.eu/digital-single-market/events/cf/public-consultation-on-cloud-computing-research-innovation-challenges-for-wp-2018-2020/stream-items.cfm?id=3, 2016 [BibTeX]
Hosseini, B.; Turek, S.; Möller, M.; Palmes, C. Isogeometric Analysis of the Navier-Stokes-Cahn-Hilliard equations with application to incompressible two-phase flows, Journal of Computational Physics, 348, 171-194, https://doi.org/10.1016/j.jcp.2017.07.029, 2017 [BibTeX]
Schröder, J.; Turek, S.; Schwarz, A. Alles im Fluss, UNIKATE, 48, 66-79, 2016 [BibTeX]
Turek, S.; Mierka, O. Numerical Simulation of Monodispersed Droplet Generation in Nozzles, Fritsching, U., 493-516, Springer, 2016 [BibTeX]
Bastian, P.; Engwer, C.; Fahlke, J.; Geveler, M.; Göddeke, D.; Iliev, O.; Ippisch, O.; Milk, R.; Mohring, J.; Müthing, S.; Ohlberger, M.; Ribbrock, D.; Turek, S. Advances Concerning Multiscale Methods and Uncertainty Quantification in EXA-DUNE, Bungartz, H., Neumann, P., Nagel, W., S. 25-43, Springer, Software for Exascale Computing-SPPEXA 2013-2015, 2016 [BibTeX]
Ibrahim, F.; Hattaf, K.; Rihan, F.; Turek, S. Numerical method based on extended one-step schemes for optimal control with time-lags, International Journal of Dynamics and Control, published: DOI: 10.1007/s40435-016-0270-x, 2016 [BibTeX]
Geveler, M.; Reuter, B.; Aizinger, V.; Göddeke, D.; Turek, S. Energy efficiency of the simulation of three-dimensional coastal ocean circulation on modern commodity and mobile processors-A case study based on the Haswell and Cortex-A15 microarchitectures, LNCS, ISC'16, Computer Science-Research and Development, 1-10, Workshop on Energy-Aware HPC, Springer, doi = {10.1007/s00450-016-0324-5}, 2016 [BibTeX]
Geveler, M.; Ribbrock, D.; Donner, D.; Ruelmann, H.; Höppke, C.; Schneider, D.; Tomaschewski, D.; Turek, S. The ICARUS white paper: A scalable, energy-efficient, solar-powered HPC center based on low power GPUs, Desprez, F., Dutot, P., Kaklamanis, C., Marchal, L., Molitorisz, K., Ricci, L., Scarano, V., Vega-Rodriguez, M., Varbanescu, A., Hunold, S., Scott, S., Lankes, S., Weidendorfer, J., LNCS, Euro-Par'16, Euro-Par 2016: Parallel Processing Workshops: Euro-Par 2016 International Workshops, Grenoble, France, August 24-26, 2016, Revised Selected Papers, 737-749, Workshop on Unconventional HPC, Springer, isbn 978-3-319-58943-5; http://dx.doi.org/10.1007/978-3-319-58943-5_59, 2016 [BibTeX]
Schwarz, A.; Nickaeen, M.; Serdas, S.; Nisters, C.; Ouazzi, A.; Schröder, J.; Turek, S. A comparative study of mixed least-squares FEMs for the incompressible Navier-Stokes equations, International Journal of Computational Science and Engineering, 17, 1, 80-97, 2016 [BibTeX]
Ibrahim, F.; Rihan, F.; Turek, S. Stability Analysis of Extended One-Step Schemes for Stiff and Non-Stiff Delay Differential Equations, Applied Mathematics and Information Sciences, 5, 1-13, 2016 [BibTeX]
Obaid, A.; Turek, S.; Heider, Y.; Markert, B. A new monolithic Newton-multigrid-based FEM solution scheme for large strain dynamic poroelasticity problems, International Journal for Numerical Methods in Engineering, submitted, 2015 [BibTeX]
Safi, A.; Turek, S. Efficient computations for high density ratio rising bubble flows using a diffused interface, coupled lattice Boltzmann-level set scheme a di used interface, coupled lattice Boltzmann-level set scheme, Computers and Mathematics with Applications, 70, 6, 1290–1305, 2015 [BibTeX]
Sokolov, A.; Ali, R.; Turek, S. An AFC-stabilized implicit finite element method for partial differential equations on evolving-in-time surfaces, J. Comp. Appl. Math., 289, 101-115, http://dx.doi.org/10.1016/j.cam.2015.03.002, 2015 [BibTeX]
Ibrahim, F.; Salama, A.; Turek, S. A Class of Extended One-Step Methods for Solving Delay Differential Equations, Applied Mathematics and Information Sciences, 9, 2, 593-602, 2015 [BibTeX]
Mierka, O.; Theis, T.; Herken, T.; Turek, S.; Schöppner, V.; Platte, F. Mesh Deformation Based Finite Element - Fictitious Boundary Method (FEM-FBM) for the Simulation of Twin-screw Extruders, Comput. Meth. Appl. Mech. Eng., submitted, 2014 [BibTeX]
Hosseini, B.; Möller, M.; Turek, S. Isogeometric Analysis of the Navier-Stokes equations with Taylor-Hood B-spline elements, Applied Mathematics and Computation, 267, 264-281, doi 10.1016/j.amc.2015.03.104, 2014 [BibTeX]
Qiu, T.; Lee, T.; Mark, A.; Morozov, K.; Münster, R.; Mierka, O.; Turek, S.; Leshansky, A.; Fischer, P. Swimming by Reciprocal Motion at Low Reynolds Number, NCOMMS, online: doi http://www.nature.com/ncomms/2014/141104/ncomms6119/full/ncomms6119.html, 2014 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S. Efficient Newton-multigrid solution techniques for higher order space-time Galerkin discretizations of incompressible flow, Appl. Num. Math., 83, 51-71, 2014 [BibTeX]
Hysing, S.; Turek, S. Evaluation of commercial and academic CFD codes for a two-phase flow benchmark test case , International Journal of Computational Science and Engineering, 10, 4, 387-394, 2015 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S.; Zajac, P. On a galerkin discretization of 4th order in space and time applied to the heat equation, IJNAM, 4, 4, 353-371, 2013 [BibTeX]
Ibrahim, F.; Salama, A.; Turek, S. A class of Extended one-step methods for solving delay differential equations, Applied Mathematics and Information Sciences, accepted, 2013 [BibTeX]
Ibrahim, F.; Salama, A.; Ouazzi, A.; Turek, S. Extended one-step methods for solving delay-differential equations, Applied Mathematics and Information Sciences, 8, 3, 941-948, 2013 [BibTeX]
Turek, S.; Obaid, A.; Markert, B. On a fully implicit, monolithic finite element method-multigrid solution approach for dynamic porous media problems, Journal of Coupled Systems and Multiscale Dynamics, 1, 2, 224-240, doi:10.1166/jcsmd.2013.1016, 2013 [BibTeX]
Nickaeen, M.; Ouazzi, A.; Turek, S. Newton multigrid least-squares FEM for the V-V-P formulation of the Navier-Stokes equations, Journal of Computational Physics, 256, 416-427, 2014 [BibTeX]
Hübner, T.; Mahmood, R.; Turek, S. Fully implicit nonstationary flow simulations with a monolithic off-lattice Boltzmann approach, J. Num. Math., 22, 2, 143-164, doi:10.1515/JNMA-2014-0006, 2014 [BibTeX]
Bayraktar, E.; Mierka, O.; Turek, S. Numerical Solutions of Population Balance Equations within Liquid/Gas–Liquid Flow Simulations, Chemie Ingenieur Technik, 85, 7, 1137–1145, published online: http://onlinelibrary.wiley.com/doi/10.1002/cite.201200225/abstract, 2013 [BibTeX]
Özkaya, E.; Bayraktar, E.; Turek, S.; Biermann, D. A novel abrasive blasting process: Abrasive medium classification and CFD simulations, Material Science and Engineering, 44, 6, 577-585, 2013 [BibTeX]
Razzaq, M.; Tsotskas, C.; Turek, S.; Kipouros, T.; Savill, M.; Hron, J. Multi-Objective Optimization of a Fluid Structure Interaction Benchmarking, CMES, 90, 4, 303-337, 2013 [BibTeX]
Özkaya, E.; Bayraktar, E.; Turek, S.; Biermann, D. Abrasive medium classification and CFD simulations for low-pressure abrasive water-jet blasting, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 469, Fakultät für Mathematik, TU Dortmund, 469, 2013 [BibTeX] [PDF]
Sokolov, A.; Strehl, R.; Turek, S. Numerical simulation of chemotaxis models on stationary surfaces, Discrete And Continuous Dynamical Systems-Series B, 18, 10, 2689-2704, 2012 [BibTeX]
Strehl, R.; Sokolov, A.; Kuzmin, D.; Horstmann, D.; Turek, S. A positivity-preserving finite element method for chemotaxis problems in 3D , J. Comp. Appl. Math., 239, 290-303, 2012 [BibTeX]
Turek, S.; Mierka, O.; Hysing, S.; Kuzmin, D. Numerical study of a high order 3D FEM-Level Set approach for immiscible flow simulation, Repin, S., Tiihonen, T., Tuovinen, T., Computational Methods in Applied Sciences, Vol. 27, 65-91, Numerical methods for differential equations, optimization, and technological problems, Springer, ISBN 978-94-007-5287-0, 2013 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S. An efficient and stable finite element solver of higher order in space and time for nonstationary incompressible flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 450, Fakultät für Mathematik, TU Dortmund, 450, 2012 [Abstract] [BibTeX] [PDF]
Hussain, S.; Schieweck, F.; Turek, S. An efficient and stable finite element solver of higher order in space and time for nonstationary incompressible flow, Int. J. Numer. Meth. Fluids, 73, 927-952, Doi: 10.1002/fld.3831, 2012 [BibTeX]
Bayraktar, E.; Mierka, O.; Turek, S. Benchmark Computations of 3D Laminar Flow Around a Cylinder with CFX, OpenFOAM and FeatFlow, International Journal of Computational Science and Engineering, 7, 3, 253-266, 2012 [BibTeX]
Nickaeen, M.; Ashrafizadeh, A.; Turek, S. An Alternative Strategy for the solution of heat and Incompressible Fluid Flow Problems via the Finite Volume Method, Numerical Heat Transfer, Part A, , 62, 393–411, 2012 [BibTeX]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. Monolithic Newton-multigrid solution techniques for incompressible nonlinear flow models, Int. J. Numer. Meth. Fluids, Volume 71, Issue 2, 208-222, 2013 [BibTeX]
Strehl, R.; Sokolov, A.; Turek, S. Efficient, accurate and flexible Finite Element solvers for Chemotaxis problems, Computers and Mathematics with Applications, 34, 3, 175-189, 2011 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S. A note on accurate and efficient higher order Galerkin time stepping schemes for the nonstationary Stokes equations, TONUMJ, 4, 35-45, 2012 [BibTeX]
Weichert, F.; Walczak, L.; Fisseler, D.; Opfermann, T.; Razzaq, M.; Münster, R.; Turek, S.; Grunwald, I.; Roth, C.; Veith, C.; Wagner, M. Simulation of Intra-Aneurysmal Blood Flow by using Different Numerical Methods, CMMM, Volume 2013, Article+ID+527654, http://dx.doi.org/10.1155/2013/527654, 2011 [BibTeX]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Towards a complete FEM-based simulation toolkit on GPUS: Unstructured Grid Finite Element Geometric Multigrid solvers with strong smoothers based on Sparse Approximate Inverses, Comp. Fluids, 80, 327-332, doi: 10.1016/j.compfluid.2012.01.025, 2013 [BibTeX]
Gurris, M.; Kuzmin, D.; Turek, S. Implicit finite element schemes for stationary compressible particle-laden gas flows, J. Comp. Appl. Math., 235, 17, 5056-5077, 2011 [BibTeX]
Geveler, M.; Ribbrock, D.; Mallach, S.; Göddeke, D.; Turek, S. A Simulation Suite for Lattice-Boltzmann based Real-Time-CFD Applications Exploiting Multi-Level Parallelism on modern Multi- and Many-Core Architectures, Journal of Computational Science, 2, 113-123, doi 10.1016/j.jocs.2011.01.008, 2011 [Abstract] [BibTeX]
Münster, R.; Mierka, O.; Turek, S. Finite Element fictitious boundary methods (FEM-FBM) for 3D particulate flow, Int. J. Numer. Meth. Fluids, 69, 2, 294–313, 2011 [BibTeX]
Razzaq, M.; Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. FEM multigrid techniques for fluid-structure interaction with application to hemodynamics, Appl. Num. Math., 62, 1156-1170, http://dx.doi.org/10.1016/j.apnum.2010.12.010, 2011 [BibTeX]
Köster, M.; Ouazzi, A.; Schieweck, F.; Turek, S.; Zajac, P. New robust nonconforming finite elements of higher order, Appl. Num. Math., 62, 166-184, 2012 [BibTeX]
Gurris, M.; Kuzmin, D.; Turek, S. Implicit Finite Element Schemes for the Stationary Compressible Euler Equations, Int. J. Numer. Meth. Fluids, 69, 1, 1-28, DOI; 10.1002/fld.2532, 2010 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S. Higher order Galerkin time discretizations and fast multigrid solvers for the heat equation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 416, Fakultät für Mathematik, TU Dortmund, 416, 2010 [Abstract] [BibTeX] [PDF]
Turek, S.; Mierka, O.; Hysing, S.; Kuzmin, D. A high order 3D FEM-Level Set approach for multiphase flows with application to monodisperse droplet generation, Int. J. Numer. Methods Fluids, 2010 [BibTeX]
Mierka, O.; Turek, S. Numerical simulation of monodisperse droplet generation in nozzles, Academic Press, Proceedings of SPRAY 2010 9. Workshop über Sprays, Techniken der Fluidzerstäubung und Untersuchungen von Sprühvorgängen, 2010 [Abstract] [BibTeX]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. A monolithic FEM approach for the log-conformation reformulation (LCR) of viscoelastic flow problems, J. Non-Newtonian Fluid Mech., 19-20, 165, 1105-1113, doi:10.1016/j.jnnfm2010.05.008, 2010 [BibTeX]
Gurris, M.; Kuzmin, D.; Turek, S. A Newton-like Finite Element Scheme for Compressible Gas Flows, Comp. Fluids, 46, 1, 245-251, 2010 [Abstract] [BibTeX]
Turek, S.; Göddeke, D.; Becker, C.; Buijssen, S.; Wobker, H. FEAST -- Realisation of hardware-oriented Numerics for HPC simulations with Finite Elements, Concurrency and Computation: Practice and Experience, 6, 2247-2265, Special Issue Proceedings of ISC 2008. doi:10.1002/cpe.1584, 2010 [BibTeX]
Razzaq, M.; Turek, S.; Hron, J.; Damanik, H.; Ouazzi, A. FEM Multigrid Techniques for Fluid-Structure Interaction with Application to Hemodynamics, Appl. Num. Math., 62, 9, 1156 - 1170, 10.1016/j.apnum.2010.12.010, 2012 [BibTeX]
Damanik, H.; Ouazzi, A.; Hron, J.; Turek, S. A monolithic FEM approach for temperature and shear dependent viscosity in viscoelastic flow, Ambrosio, ., 7th EUROMECH Solid Mechanics Conference, ACM Press, 2009 [BibTeX]
Kheiripour Langroudi, M.; Turek, S.; Ouazzi, A.; Tardos, G. An investigation of frictional and collisional powder flows using a unified constitutive equation, Powder Technology, 197, 1-2, 91-101, 2009 [BibTeX]
Gurris, M.; Kuzmin, D.; Turek, S. Finite Element Simulation of Compressible Particle-Laden Gas Flows, J. Comp. Appl. Math., 12, 233, 3121-3129, 2009 [BibTeX]
Strehl, R.; Sokolov, A.; Kuzmin, D.; Turek, S. A flux-corrected finite element method for chemotaxis problems, Computational Methods in Applied Mathematics, Vol. 10 (2010) , 2, 219-232 , 2009 [BibTeX]
Hübner, T.; Turek, S. Efficient monolithic simulation techniques for the stationary Lattice Boltzmann equation on general meshes, Computing and Visualization in Science, 13, 129-143, 2010 [BibTeX]
Hysing, S.; Turek, S.; Kuzmin, D.; Parolini, N.; Burman, E.; Ganesan, S.; Tobiska, L. Quantitative benchmark computations of two-dimensional bubble dynamics, Int. J. Num. Meth. Fluids, 60, 11, 1259-1288, doi: 10.1002/fld.1934, 2009 [Abstract] [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. A monolithic FEM-multigrid solver for non-isothermal incompressible flow on general meshes, Journal of Computational Physics, 228, 3869-3881, 2009 [BibTeX]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Acceleration of an Unmodified Parallel Finite Element Navier-Stokes Solver, Smari, W., McIntire, J., 12-21, High Performance Computing & Simulation 2009, Logos Verlag, 2009 [BibTeX]
Grajewski, M.; Köster, M.; Turek, S. Mathematical and numerical analysis of a robust and efficient grid deformation method in the finite element context, SIAM J. Sci. Comput., 31, 2, 1539-1557, 2008 [BibTeX]
Wobker, H.; Turek, S. Numerical studies of Vanka-type smoothers in computational solid mechanics, Adv. Appl. Math. Mech., 1, 1, 29-55, 2009 [BibTeX]
Razzaq, M.; Hron, J.; Turek, S. Numerical simulation of laminar incompressible fluid-structure interaction for elastic material with point constraints, Rannacher, R., Sequeira, A., 451-472, Advances in Mathematical Fluid Mechanics-Dedicated to Giovanni Paolo Galdi on the Occasion of his 60th Birthday, Springer, ISBN 978-3-642-04067-2, 2008 [BibTeX]
Sokolov, A.; Olshanskii, M.; Turek, S. A discrete projection method for incompressible viscous flow with Coriolis force, Comput. Meth. Appl. Mech. Eng., 197, 51-52, 4512--4520, 2008 [Abstract] [BibTeX]
Grajewski, M.; Köster, M.; Turek, S. Numerical analysis and implementational aspects of a new multilevel grid deformation method, Appl. Num. Math., 60, 8, 767-781, doi:10.1016/j.apnum.2010.03.017, 2010 [BibTeX]
Göddeke, D.; Wobker, H.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Turek, S. Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU, International Journal of Computational Science and Engineering, 4, 4, 254-269, DOI: 10.1504/IJCSE.2009.029162, 2009 [Abstract] [BibTeX]
Olshanskii, M.; Sokolov, A.; Turek, S. Error analysis of a projection method for the Navier--Stokes equations with coriolis force, Journal of Mathematical Fluid Mechanics, 11-+, doi: 10.1007/s00021-009-0299-0; http://adsabs.harvard.edu/abs/2009JMFM..tmp...11O; Provided by the SAO/NASA Astrophysics Data System, 2009 [BibTeX]
Bayraktar, E.; Mierka, O.; Platte, F.; Kuzmin, D.; Turek, S. Numerical Aspects and Implementation of Population Balance Equations Coupled with Turbulent Fluid Dynamics, Computers and Chemical Engineering, 35, 2204-2217 , DOI information: 10.1016/j.compchemeng.2011.04.001 , 2008 [Abstract] [BibTeX]
Sokolov, A.; Turek, S.; Olshanskii, M. Numerical study of a discrete projection method for rotating incompressible flows, Electronic Transactions on Numerical Analysis , 32, 49-62, 2008 [BibTeX]
Turek, S.; Ouazzi, A.; Hron, J. On pressure separation algorithms (PSEPA) for improving the accuracy of incompressible flow simulations, Int. J. Num. Meth. Fluids, 59, 4, 387-403, 2008 [BibTeX]
Tillmann, W.; Vogli, E.; Abdulgader, M.; Gurris, M.; Kuzmin, D.; Turek, S. Particle behaviour during arc spraying with cored wires, Journal of Thermal Spray Technology, 17, 5--6, 966-973, 2008 [BibTeX]
Göddeke, D.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Wobker, H.; Becker, C.; Turek, S. Using GPUs to improve multigrid solver performance on a cluster, International Journal of Computational Science and Engineering, 4, 1, 36-55, doi: 10.1504/IJCSE.2008.021111, 2008 [BibTeX]
Kashid, M.; Rivas, D.; Agar, D.; Turek, S. On the hydrodynamics of liquid-liquid slug flow capillary microreactors, Asia Pacific Journal of Chemcial Engineering, 3, 2, 151-160, doi: 10.1002/apj.127, 2008 [BibTeX]
Hübner, T.; Turek, S. An efficient and accurate short-characteristics solver for radiative transfer problems, Computing, 81, 4, 281-296, 2007 [BibTeX]
Wan, D.; Turek, S. An efficient multigrid-FEM method for the simulation of solid–liquid two phase flows, J. Comp. Appl. Math., 203, 2, 561-580, 2007 [Abstract] [BibTeX] [PDF]
Kashid, M.; Agar, D.; Turek, S. CFD modelling of mass transfer with and without chemical reaction in the liquid-liquid slug flow capillary microreactor, Chemical Engineering Science, 62, 18--20, 5102-5109, doi:10.1016/j.ces.2007.01.068, 2007 [Abstract] [BibTeX] [PDF]
Kashid, M.; Platte, F.; Agar, D.; Turek, S. Computational modelling of slug flow in a capillary microreactor, J. Comp. Appl. Math., 203, 2, 487-497, 2007 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Buijssen, S.; Grajewski, M.; Turek, S. Exploring weak scalability for FEM calculations on a GPU-enhanced cluster, Parallel Computing, 33, 10--11, 685-699, doi: 10.1016/j.parco.2007.09.002, 2007 [Abstract] [BibTeX]
Kuzmin, D.; Mierka, O.; Turek, S. On the implementation of the k-epsilon turbulence model in incompressible flow solvers based on a finite element discretization , IJCSM, 2/3/4, 193-206, 2007 [BibTeX]
Göddeke, D.; Strzodka, R.; Turek, S. Performance and accuracy of hardware-oriented native-, emulated- and mixed-precision solvers in FEM simulations, International Journal of Parallel, Emergent and Distributed Systems, 22, 4, 221-256, doi: 10.1080/17445760601122076, 2007 [Abstract] [BibTeX]
Turek, S.; Ouazzi, A. Unified edge-oriented stabilization of nonconforming FEM for incompressible flow problems: Numerical investigations, J. Num. Math., 15, 4, 299-322, 2007 [BibTeX]
Geller, S.; Krafczyk, M.; Tölke, J.; Turek, S.; Hron, J. Benchmark computations based on Lattice Boltzmann, finite element and finite volume methods for laminar flows, Comp. Fluids, 35, 8--9, 888-897, 2006 [Abstract] [BibTeX] [PDF]
Hron, J.; Turek, S. A monolithic FEM/multigrid solver for ALE formulation of fluid structure interaction with application in biomechanics, Bungartz, H., Schäfer, M., Lecture Notes in Computational Science and Engineering, 53, 146-170, Fluid-Structure Interaction - Modelling, Simulation, Optimization, Springer, ISBN 3-540-34595-7, 2006 [BibTeX]
Henning, L.; Kuzmin, D.; Mehrmann, V.; Schmidt, M.; Sokolov, A.; Turek, S. Flow control on the basis of a FEATFLOW-MATLAB coupling, Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM), Springer, 1st Active Flow Control Conference AFC 2006, Berlin, 2006 [BibTeX]
Turek, S.; Hron, J. Proposal for numerical benchmarking of fluid-structure interaction between an elastic object and laminar incompressible flow, Bungartz, H., Schäfer, M., Lecture Notes in Computational Science and Engineering, 53, 371-385, Fluid-Structure Interaction - Modelling, Simulation, Optimization, Springer, ISBN 3-540-34595-7, 2006 [BibTeX]
Wan, D.; Turek, S. Direct numerical simulation of particulate flow via multigrid FEM techniques and the fictitious boundary method, Int. J. Num. Meth. Fluids, 51, 5, 531-566, Published online 2005 in Wiley InterScience (www.interscience.wiley.com). doi: L 10.1002/fld.1129, 2006 [BibTeX]
Wan, D.; Turek, S. Modeling of liquid-solid flows with large number of moving particles by multigrid fictitious boundary method, Journal of Hydrodynamics, Ser. B., 18, 3, 93-100, 2006 [Abstract] [BibTeX]
Nalpantidis, K.; Platte, F.; Agar, D.; Turek, S. Elucidation of hybrid N2O decomposition using axially structured catalyst in reverse flow reactor, Chemical Engineering Science, 61, 10, 3176-3185, 2006 [BibTeX]
Wan, D.; Turek, S. Fictitious boundary and moving mesh methods for the numerical simulation of rigid particulate flows, Journal of Computational Physics, 222, 28-56, doi:10.1016/j.jcp.2006.06.002, 2007 [BibTeX]
Turek, S.; Becker, C.; Kilian, S. Hardware-oriented numerics and concepts for PDE software, Future Generat. Comput. Syst., 22, 1--2, 217-238, doi:10.1016/j.future.2003.09.007, 2006 [BibTeX]
Turek, S.; Rivkind, L.; Hron, J.; Glowinski, R. Numerical study of a modified time-stepping theta-scheme for incompressible flow simulations, J. Sci. Comput., 28, 2--3, 533-547, doi: 10.1007/s10915-006-9083-y, 2006 [BibTeX]
Grajewski, M.; Hron, J.; Turek, S. Numerical analysis for a new non-conforming linear finite element on quadrilaterals, J. Comp. Appl. Math., 193, 1, 38-50, doi: 10.1016/j.cam.2005.05.024, 2006 [Abstract] [BibTeX] [PDF]
Köster, M.; Turek, S. The influence of higher order FEM discretisations on multigrid convergence, Computational Methods in Applied Mathematics, 6, 2, 221-232, 2006 [BibTeX]
Grajewski, M.; Hron, J.; Turek, S. Dual weighted a posteriori error estimation for a new nonconforming linear finite element on quadrilaterals, Appl. Num. Math., 54, 3--4, 504-518, 2005 [Abstract] [BibTeX] [PDF]
Hron, J.; Ouazzi, A.; Turek, S. Finite element methods for the simulation of incompressible powder flow, Communications in Numerical Methods in Engineering, 21, 10, 581-596, 2005 [BibTeX]
Möller, M.; Kuzmin, D.; Turek, S. Implicit finite element discretizations based on the flux-corrected transport algorithm, Int. J. Num. Meth. Fluids, 47, 10--11, 1197-1203, 2005 [Abstract] [BibTeX]
Kashid, M.; Gerlach, I.; Goetz, S.; Franzke, J.; Acker, J.; Platte, F.; Agar, D.; Turek, S. Internal Circulation within the Liquid Slugs of a Liquid-Liquid Slug-Flow Capillary Microreactor, Ind. Eng. Chem. Res, 44, 5003-5010, 2005 [Abstract] [BibTeX]
Platte, F.; Kuzmin, D.; Fredebeul, C.; Turek, S. Novel simulation approaches for cyclic steady-state fixed-bed processes exhibiting sharp fronts and shocks, International Series of Numerical Mathematics, 151, 207-223, Trends and Applications in Constructive Approximation, editors, M. G. de Bruin, D. H. Mache & J. Szabados, Birkhäuser Verlag Basel/Switzerland, 2005 [BibTeX]
Kuzmin, D.; Turek, S. Finite element discretization tools for gas-liquid flows, Sommerfeld, M., Heat and Mass Transfer, VIII, 191-201, Bubbly Flows - Analysis, Modelling and Calculation, Springer, ISBN: 3-540-40791-X, 2004 [BibTeX]
Schmitt, C.; Agar, D.; Turek, S.; Duisberg, M.; Völger, K.; Pawlowski, B. Keramischer Wandreaktor und Plattenwärmeaustauscher, Chemie Ingenieur Technik, 76, 9, 2004 [BibTeX]
Kuzmin, D.; Turek, S. High-resolution FEM-TVD schemes based on a fully multidimensional flux limiter, J. Comput. Phys., 198, 131-158, 2004 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Möller, M.; Turek, S. High-resolution FEM-FCT schemes for multidimensional conservation laws , Comput. Meth. Appl. Mech. Eng., 193, 45--47, 4915-4946, 2004 [Abstract] [BibTeX] [PDF]
Hron, J.; Ouazzi, A.; Turek, S. A computational comparison of two FEM solvers for nonlinear incompressible flow, 35, 87-109, Lecture Notes in Computational Science and Engineering, Springer, New York, 2003 [BibTeX]
Ziethe, R.; Spohn, T.; Turek, S. Core formation: A new modelling approach, ESA, SP--514, 137-143, 2003 [BibTeX]
Becker, C.; Rannacher, R.; Turek, S. An efficient Navier--Stokes solver for automotive aerodynamics, Jäger, W., Krebs, H., 43-54, Mathematics Key Technology for the Future, Springer, 2003 [BibTeX]
Kuzmin, D.; Möller, M.; Turek, S. Multidimensional FEM-FCT schemes for arbitrary time-stepping, Int. J. Num. Meth. Fluids, 42, 3, 265-295, 2003 [Abstract] [BibTeX] [PDF]
Turek, S. Perspektiven für computational fluid dynamics - Eine kritische Betrachtung aus numerischer Sicht, Simulation, 2, 54-58, ISSN 1610-8949, 2003 [BibTeX]
Turek, S.; Bertran, X.; Olivier, H. Analysis of unsteady airfoils at low speeds, Notes on Numerical Fluid Mechanics, 84, 323-350, In J. Ballmann, editor, Flow Modulation and Fluid-Structure-Interaction at Airplane Wings, 2002 [BibTeX]
Turek, S.; Ziethe, R.; Spohn, T.; Breuer, D. Core formation: A new modelling approach, Geophysical Research Abstracts, 4, PS1.01, CD-ROM, 2002 [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Flux correction tools for finite elements, J. Comput. Phys., 175, 2, 525-558, 2002 [Abstract] [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Hron, J. A computational comparison of two FEM solvers for nonlinear incompressible flow, Bänsch, E., LNCSE, 87-109, Challenges in Scientific Computing CISC 2002, Springer, ISBN 3-540-40887-8, 2002 [Abstract] [BibTeX] [PDF]
Turek, S.; Decheng, W.; Rivkind, L. The fictitious boundary method for the implicit treatment of Dirichlet boundary conditions with applications to incompressible flow simulation, Bänsch, E., LNCSE, 35, 37-68, Challenges in Scientific Computing CISC 2002, Springer, 2002 [BibTeX]
Schmachtel, R.; Turek, S. Fully coupled and operator-splitting approaches for natural convection, Int. J. Num. Meth. Fluids, 40, 8, 1109-1119, 2002 [BibTeX]
Turek, S.; Ouazzi, A.; Schmachtel, R. Multigrid methods for stabilized nonconforming finite elements for incompressible flow involving the deformation tensor formulation, J. Num. Math., 10, 3, 235-248, 2002 [Abstract] [BibTeX] [PDF]
Turek, S.; Runge, A.; Becker, C. The FEAST indices--realistic evaluation of modern software components and processor technologies, Computers and Mathematics with Applications, 41, 10, 1431-1464, doi: 10.1016/s0898-1221(01)00108-0, 2001 [BibTeX] [PDF]
Hron, J.; Malek, J.; Turek, S. A numerical investigation of flows of shear-thinning fluids with applications to blood flow, Int. J. Num. Meth. Fluids, 32, 7, 863-879, 2000 [Abstract] [BibTeX] [PDF]
Turek, S. CFD for incompressible flow: Numerical efficiency vs. gigaflops, Numerical Linear Algebra and Applications, 7, 473-482, 2000 [BibTeX]
Turek, S.; Runge, A.; Becker, C. Performance rating via the FEAST indices, Computing, 63, 3, 283-297, doi: 10.1007/s006070050035, 1999 [BibTeX]
Altieri, M.; Becker, C.; Turek, S. On the realistic performance of linear algebra components in iterative solvers, Bungartz, H., Durst, F., Zenger, C., Lecture Notes in Computational Science and Engineering: Proceedings of the International FORTWIHR Conference on HPSEC, Munich, 1998, 8, 3-12, High Performance Scientific and Engineering Computing, Springer, ISBN 3-540-65730-4, 1999 [BibTeX]
Turek, S. On discrete projection methods for the incompressible Navier--Stokes equations: An algorithmical approach, Comput. Meth. Appl. Mech. Eng., 143, 3-4, 271-288, 1997 [BibTeX]
Turek, S. A comparative study of time-stepping techniques for the incompressible Navier--Stokes equations: From fully implicit non-linear schemes to semi-implicit projection methods, Int. J. Num. Meth. Fluids, 22, 10, 987-1011, 1996 [BibTeX]
Heywood, J.; Rannacher, R.; Turek, S. Artificial boundaries and flux and pressure conditions for the incompressible Navier--Stokes equations, Int. J. Num. Meth. Fluids, 22, 5, 325-352, 1996 [BibTeX] [PDF]
Turek, S.; Schäfer, M. Benchmark computations of laminar flow around cylinder, Hirschel, E., Notes on Numerical Fluid Mechanics, 52, 547-566, Flow Simulation with High-Performance Computers II, Vieweg, 1996 [BibTeX]
Rannacher, R.; Schreiber, P.; Turek, S. Numerische Modellierung von Gasbrennern: Berechnung schwachkompressibler Gasströmungen, Hoffmann, K., Jäger, W., Lohmann, T., Mathematik - Schlüsseltechnologie für die Zukunft, Springer, 1996 [BibTeX]
Turek, S. Numerik in der Strömungsmechanik: Numerische Effizienz versus Gigaflops, Physikalische Blätter, 52, 11, 1137-1139, 1996 [BibTeX]
Turek, S. A generalized mean intensity approach for the numerical solution of the radiative transfer equation, Computing, 54, 1, 27-38, 1995 [BibTeX]
Turek, S. Multigrid techniques for a divergence--free finite element discretization , East-West Journal of Numerical Mathematics, 2, 3, 229-255, 1994 [BibTeX] [PDF]
Turek, S.; Wehrse, R. Spectral appearance of dust enshrouded stars: A combination of a strongly accelerated solution technique with a finite element approach for 2D radiative transfer , Astronomy and Astrophysics, 1994 [BibTeX]
Müller, S.; Prohl, A.; Rannacher, R.; Turek, S. Implicit time-discretization of the nonstationary incompressible Navier--Stokes equations, Hackbusch, W., Wittum, G., Proc. 10th GAMM-Seminar, Vieweg, 1994 [BibTeX]
Turek, S. Tools for simulating nonstationary incompressible flow via discretely divergence--free finite element models, Int. J. Num. Meth. Fluids, 18, 1, 71-105, 1994 [BibTeX]
Turek, S. An efficient solution technique for the radiative transfer equation, Impact of computing in science and engineering, 5, 3, 201-214, 1993 [BibTeX]
Turek, S.; Malek, J. Non-newtonian flow prediction by divergence free finite elements, SAACM, 3, 3, 165-180, 1993 [BibTeX]
Schreiber, P.; Turek, S. An efficient finite element solver for the nonstationary incompressible Navier--Stokes equations in two and three dimensions, Notes on Numerical Fluid Mechanics, 47, 25-28, Proc. Workshop ``Numerical Methods for the Navier--Stokes equations``, Vieweg, 1993 [BibTeX]
Turek, S. On ordering strategies in a multigrid algorithm, Notes on Numerical Fluid Mechanics, 41, Proc. 8th GAMM-Seminar, Vieweg, 1992 [BibTeX]
Turek, S.; Rannacher, R. A simple nonconforming quadrilateral stokes element, Num. Meth. Part. D. E., 8, 2, 97-111, 1992 [BibTeX]

-Proceedings-

Turek, S.; Mierka, O.; Bäumler, K. Numerical Benchmarking for 3D Multiphase Flow: New Results for a Rising Bubble, Radu, F., Kumar, K., Berre, I., Nordbotten, J., Pop, I., Lecture Notes in Computational Science and Engineering, 126, 593-601, Numerical Mathematics and Advanced Applications, Springer, 2019 [BibTeX]
Ouazzi, A.; Damanik, H.; Turek, S. Finite element method for nonlinear fluids with complex rheology, 8-10 December 2017, University of Dhaka, Dhaka, Bangladesh, 2017 [Abstract] [BibTeX] [PDF]
Mandal, S.; Ouazzi, A.; Turek, S. Modified Newton solver for yield stress fluids, 481-490, Proceedings of ENUMATH 2015, the 11th European Conference on Numerical Mathematics and Advanced Applications, Springer, 2016 [BibTeX]
Damanik, H.; Ouazzi, A.; Turek, S. Numerical simulation of Polymer Film stretching, 709-716, Proceedings of ENUMATH 2013, the 10th European Conference on Numerical Mathematics and Advanced Applications, Springer, 2015 [BibTeX]
Hinze, M.; Köster, M.; Turek, S. Space-Time Newton-Multigrid Strategies for Nonstationary Distributed and Boundary Flow Control Problems, Leugering, G., Benner, P., Engell, S., Griewank, A., Harbrecht, H., Hinze, M., Rannacher, R., Ulbrich, S., Inernational Series of Numerical Mathematikcs, 165, 383-402, Trends in PDE Constrained Optimization, Birkhäuser, 2014 [BibTeX]
Bastian, P.; Engwer, C.; Göddeke, D.; Iliev, O.; Ippisch, O.; Ohlberger, M.; Turek, S.; Fahlke, J.; Kaulmann, S.; Müthing, S.; Ribbrock, D. EXA-DUNE: Flexible PDE Solvers, Numerical Methods and Applications , Proceedings EuroPar 2014, Workshop on Software for Exascale Computing , Springer, August 2014, Porto, Portugal , 2014 [Abstract] [BibTeX]
Turek, S. Exascale techniques for Numerics for PDEs (Part I), Casanova, H., Robert, Y., Schwiegelshohn, U., Report from Dagstuhl Seminar 13381, 126, Algorithms and Scheduling Techniques for Exascale Systems, Dagstuhl Publishing, http://dx.doi.org/10.4230/DagRep.3.9.106, 2013 [BibTeX]
Schwarz, A.; Schröder, J.; Serdas, S.; Turek, S.; Ouazzi, A.; Nickaeen, M. Performance aspects of a mixed s-v LSFEM for the incompressible Navier-Stokes equations with improved mass-conservation, Special Issue: 84th Annual Meeting of the International Association of Applied Mathemattics and Mechanics (GAMM), Jg.+13+%282013%29%2C+Heft+1, 513-514, Proceedings of Applied Mathematics and Mechanics, Wiley-Interscience, 2013 [BibTeX]
Serdas, S.; Schwarz, A.; Schröder, J.; Turek, S.; Ouazzi, A.; Nickaeen, M. Influence of higher interpolation orders in mixed LSFEM for the incompressible Navier-Stokes equations, Special Issue: 84th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Novi Sad 2013, 13%2C1, 301-302, Wiley-Interscience, 2013 [BibTeX]
Hussain, S.; Schieweck, F.; Turek, S. Higher order Galerkin time discretization for nonstationary incompressible flow , Numerical Mathematics and Advanced Applications, 509-517, Proceedings Enumath 2012 Leicester, Wiley-VCH, 2012 [BibTeX]
Turek, S.; Damanik, H.; Hron, J.; Ouazzi, A. Efficient FEM Solvers for Incompressible Nonlinear Flow Models, Heim, H., Biermann, D., Maier, H., 219-224, 1st International Conference on Thermo-Mechanically Graded Materials, Verlag Wissenschaftliche Scripten, CRC/TR TRR 30, 2012 [BibTeX]
Damanik, H.; Ouazzi, A.; Turek, S. Numerical simulation of a rising bubble in viscoelastic fluids, Springer, Enumath 2011 - Leiceister, 2011 [BibTeX]
Turek, S.; Hron, J.; Razzaq, M.; Schäfer, M. Numerical Benchmarking of Fluid-Structure Interaction: A comparison of different discretization and solution approaches, Bungartz, H., Mehl, M., Schäfer, M., Lecture Notes in Computational Science and Engineering, 73, 413-424, Fluid-Structure Interaction II: Modelling, Simulation, Optimisation, Springer, doi 10.1007/978-3-642-14206-2, 2010 [BibTeX]
Turek, S.; Hron, J.; Madlik, M.; Razzaq, M.; Wobker, H.; Acker, J. Numerical simulation and benchmarking of a monolithic multigrid solver for fluid-structure interaction problems with application to hemodynamics, Bungartz, H., Mehl, M., Schäfer, M., Lecture Notes in Computational Science and Engineering, 73, 193-220, Fluid-Structure Interaction II: Modelling, Simulation, Optimisation, Springer, doi 10.1007/978-3-642-14206-2, 2010 [BibTeX]
Kopecz, S.; Meister, A.; Ouazzi, A.; Turek, S.; Wuensch, O. Efficient computation of non-isothermal highly viscous incompressible flow, 10845-10846, Proceedings in Applied Mathematics and Mechanics (PAMM 08), ACM Press, DOI: 10.1002/pamm.200810845 , 2008 [BibTeX]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Efficient Finite Element Geometric Multigrid Solvers for Unstructured Grids on GPUs, Ivànyi, P., Topping, B., 22, Second International Conference on Parallel, Distributed, Grid and Cloud Computing for Engineering, Civil-Comp Press, Young Researcher Best Paper Award (doi: 10.4203/ccp.95.22), 2011 [BibTeX]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Towards a complete FEM-based simulation toolkit on GPUs: Geometric Multigrid solvers, 23rd International Conference on Parallel Computational Fluid Dynamics (ParCFD`11), Wiley-Interscience, 2011 [Abstract] [BibTeX]
Ouazzi, A.; Damanik, H.; Hron, J.; Turek, S. FEM Techniques for the LCR Reformulation of Viscoelastic Flow Problems, Enumath , Part+2, 747-754, Numerical Mathematics and Advanced Applications 2009 2010, Springer, 2010 [BibTeX]
Turek, S.; Göddeke, D.; Buijssen, S.; Wobker, H. Hardware-Oriented Multigrid Finite Element Solvers on (GPU)-Accelerated Clusters, Kurzak, J., Bader, D., Dongarra, J., chapter 6, 113-130, Scientific Computing with Multicore and Accelerators, CRC Press, doi: 10.1201/b10376-10, 2010 [BibTeX]
Ribbrock, D.; Geveler, M.; Göddeke, D.; Turek, S. Performance and accuracy of Lattice-Boltzmann kernels on multi- and manycore architectures, Sloot, P., Dick van Albada, G., Dongarra, J., Procedia Computer Science, 1, 1, 239 - 247, International Conference on Computational Science (ICCS`10), Elsevier, doi: 10.1016/j.procs.2010.04.027, 2010 [BibTeX]
Razzaq, M.; Turek, S.; Hron, J.; Acker, J.; Weichert, F.; Wagner, M.; Grunwald, I.; Roth, C.; Romeike, B. Numerical simulation of fluid-structure interaction with application to aneurysm hemodynamics, 215-230, Fluid-Structure Interaction. Theory, Numerics and Applications, Logos Verlag, Herrsching am Ammersee, 2008, 2009 [BibTeX]
Kopecz, S.; Meister, A.; Ouazzi, A.; Turek, S.; Wuensch, O. Efficient computation of non-isothermal highly viscous incompressible flow, 10845-10846, Proceedings in Applied Mathematics and Mechanics (PAMM 08), ACM Press, DOI: 10.1002/pamm.200810845 , 2008 [BibTeX]
Turek, S.; Göddeke, D.; Becker, C.; Buijssen, S.; Wobker, H. UCHPC: Unconventional High-Performance Computing for finite element simulations, Winner of the first PRACE award; http://www.prace-project.eu/news/prace-award-presented-to-young-scientist-at-isc201908, 2008 [BibTeX]
Acker, J.; Berkels, B.; Bredies, K.; Diallo, M.; Droske, M.; Garbe, C.; Holschneider , M.; Hron, J.; Kondermann, C.; Kulesh, M.; Maass, P.; Olischläger, N.; Peitgen, H.; Preusser, T.; Rumpf, M.; Schaller, K.; Scherbaum, F.; Turek, S. Mathematical methods in time series analysis and digital image processing, Timmer, J., Dahlhaus, R., Kurths, J., 111-151, Inverse Problems and Parameter Identification in Image Processing, Springer, 2008 [BibTeX]
Buijssen, S.; Wobker, H.; Göddeke, D.; Turek, S. FEASTSolid and FEASTFlow: FEM applications exploiting FEAST`s HPC technologies, Nagel, W., Resch, M., Transactions of the High Performance Computing Center Stuttgart (HLRS) 2008, 425-440, High Performance Computing in Science and Engineering 2008, Springer, doi: 10.1007/978-3-540-88303-6_30, 2008 [Abstract] [BibTeX]
Turek, S.; Hron, J. Numerical techniques for multiphase flow with liquid-solid interaction, Galdi, G., Rannacher, R., Robertson, A., Turek, S., Oberwolfach Seminars, 37, 379-501, Hemodynamical Flow Modeling, Analysis and Simulation, Birkhäuser, 2008 [BibTeX]
Hysing, S.; Turek, S. Benchmark proposals for incompressible two-phase flows, 80, ICMF 2007 Programme and Abstracts of the 6th International Conference on Multiphase Flow, Wiley-VCH, 2007 [BibTeX]
Turek, S. Mini-Workshop: Theory and numerics of fluid-solid interaction, Oberwolfach Rep. 4, Abstracts from the mini-workshop held November 25-December 1, 4, 3131-3180, Vieweg, 2007 [BibTeX]
Becker, C.; Buijssen, S.; Turek, S. FEAST: Development of HPC technologies for FEM applications, Nagel, W., Kröner, D., Resch, M., Transactions of the High Performance Computing Center, Stuttgart (HLRS), 503-516, High Performance Computing in Science and Engineering 2007, Springer, doi: 10.1007/978-3-540-74739-0_34, 2008 [BibTeX]
Wobker, H.; Turek, S. High Performance Computing techniques for the FEM simulation in solid mechanics, Galdi, G., Rannacher, R., Turek, S., Oberwolfach Reports, 4, 3174-3178, Mini-Workshop: Theory and Numerics of Fluid-Solid Interaction, European Mathematical Society Publishing House, 2007 [BibTeX]
Turek, S.; Hron, J. A monolithic FEM solver for an ALE formulation of fluid-structure interaction with configuration for numerical benchmarking, Wesseling, P., Onate, E., Periaux, J., 176, Books of Abstracts European Conference on Computational Fluid Dynamics, nn, Eccomas CFD 2006, 2006 [BibTeX]
Anca, D.; Turek, S.; Wan, . Fictitious boundary and moving mesh methods for the numerical simulation of particulate flow, Wesseling, P., Onate, E., Periaux, J., CD-ROM, 228, Proceedings Eccomas CFD , nn, ISBN 90-90209970-0, 2006 [BibTeX]
Ouazzi, A.; Turek, S. Efficient multigrid and data structures for edge-oriented FEM stabilization, 520-527, Numerical Mathematics and Advanced Applications Enumath 2005, Springer, ISBN-10 3-540-34287-7, 2006 [BibTeX]
Becker, C.; Buijssen, S.; Wobker, H.; Turek, S. FEAST: Development of HPC technologies for FEM applications, Münster, G., Wolf, D., Kremer, M., NIC Series, 32, 299-306, NIC Symposium 2006, Graphische Betriebe, Forschungszentrum Jülich, 2006 [BibTeX]
Göddeke, D.; Becker, C.; Turek, S. Integrating GPUs as fast co-processors into the parallel FE package FEAST, Becker, M., Szczerbicka, H., Frontiers in Simulation, 277-282, 19th Symposium Simulationstechnique, SCS Publishing House e.V., ISBN 3-936150-49-4, 2006 [Abstract] [BibTeX]
Hron, J.; Turek, S. Numerical benchmarking of fluid-structure interaction, Wesseling, P., Onate, E., Periaux, J., 138, Books of Abstracts European Conference on Computational Fluid Dynamics, nn, Eccomas CFD 2006, 2006 [BibTeX]
Wan, D.; Turek, S. Numerical simulation of coupled fluid-solid systems by fictitious boundary and grid deformation methods, 906-914, Numerical Mathematics and Advanced Applications Enumath 2005, Elsevier, ISBN-10 3-540-34287-7, 2006 [BibTeX]
Turek, S.; Ouazzi, A. Numerical simulation of powder flow by Finite Element methods, Walzel, P., Linz, S., Krülle, C., Grochowski, R., Schriftenreihe Mechanische Verfahrenstechnik, 67-74, Final Presentation of the Research Program ``Behavior of Granular Media`` funded by the DFG, Shaker, Final Presentation in Münster, 2006, 2006 [BibTeX]
Hron, J.; Turek, S. A monolithic FEM solver for ALE formulation of fluid structure interaction with configurations for numerical benchmarking, Papadrakakis, M., Onate, E., Schrefler, B., First Edition, 148, Computational Methods for Coupled Problems in Science and Engineering, nn, Konferenzband ``First International Conference on Computational Methods for Coupled Problems in Science and Engineering`` (Santorini), 2005 [BibTeX]
Göddeke, D.; Strzodka, R.; Turek, S. Accelerating double precision FEM simulations with GPUs, Hülsemann, F., Kowarschik, M., Rüde, U., Frontiers in Simulation, 139-144, 18th Symposium Simulationstechnique, SCS Publishing House e.V., ASIM 2005, 2005 [Abstract] [BibTeX]
Hysing, S.; Turek, S. The Eikonal equation: numerical efficiency vs. algorithmic complexity on quadrilateral grids, 22-31, Proceedings of Algoritmy 2005, Conference on Scientific Computing, nn, Slovak University of Technology, Bratislava, ISBN 80-227-2192-1, 2005 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Finite element discretization and iterative solution techniques for multiphase flows in gas-liquid reactors, Glowinski, R., Krizek, M., Neittaanmäki, P., 297-324, Conjugate Gradient Algorithms and Finite Element Methods, Springer, Jyväskylä, Finland, 2002; (ISBN-Nr. 3-540-21319-8), 2004 [BibTeX]
Kuzmin, D.; Möller, M.; Turek, S. Implicit flux-corrected transport algorithm for finite element simulation of the compressible Euler equations, Glowinski, R., Krizek, M., Neittaanmäki, P., 325-354, Conjugate Gradient Algorithms and Finite Element Methods, Springer, Jyväskylä, Finland, 2002 (ISBN-Nr. 3-540-21319-8), 2004 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Multidimensional FEM-TVD paradigm for convection-dominated flows, II, Proceedings of the IV European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), nn, ISBN 951-39-1869-6, 2004 [BibTeX]
Kuzmin, D.; Turek, S. Numerical simulation of turbulent bubbly flows, Proceedings of the Third International Symposium on Two-Phase Flow Modeling and Experimentation, nn, Pisa, 2004, 2004 [Abstract] [BibTeX] [PDF]
Wan, D.; Turek, S.; Rivkind, L. An efficient multigrid FEM solution technique for incompressible flow with moving rigid bodies, Feistauer, M., Dolejsi, V., Knobloch, P., Najzar, K., 844-853, Numerical Mathematics and Advanced Applications, Springer, Enumath 2003 Prague; ISBN-Nr. 3-540-21460-7, 2003 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Explicit and implicit High-Resolution finite element schemes based on the flux-corrected-transport algorithm, Brezzi, F., 133-143, Proceedings of the 4th European Conference on Numerical Mathematics and Advanced Applications, Springer, 2003 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit FEM-FCT algorithm for compressible flows, Feistauer, M., Dolejsi, V., Knobloch, P., Najzar, K., Proceedings of ENUMATH 2003, 641-650, Numerical Mathematics and Advanced Applications, Springer, ISBN-Nr. 3-540-21460-7, 2003 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Numerical methods and simulation techniques for flow with shear and pressure dependent viscosity, Feistauer, M., Dolejsi, V., Knobloch, P., Najzar, K., 668-676, Numerical Mathematics and Advanced Applications, Springer, Enumath 2003 Prague; ISBN-Nr. 3-540-21460-7, 2003 [Abstract] [BibTeX] [PDF]
Ziethe, R.; Spohn, T.; Turek, S. Core formation: A new modelling approach, ESLAB 36, Earth-Like Planets and Moons, nn, ESTEC Noordwijk (Poster), 2002 [BibTeX]
Becker, C.; Buijssen, S.; Kilian, S.; Turek, S. High Performance FEM simulation via FEAST and application to parallel CFD via FEATFLOW, Rollnik, H., Wolf, D., NIC-Serie, 9, 493-502, NIC Symposium 2001, Forschungszentrum Jülich, Forschungszentrum Jülich, 2001, 2002 [BibTeX]
Buijssen, S.; Turek, S. Sources of parallel inefficiency for incompressible CFD simulation, Monien, B., Feldmann, R., LNCS, 701-704, Proceedings 8th International Euro-Par Conference, Springer, Paderborn, Germany, August 27-30, 2002 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Efficient numerical techniques for flow simulation in bubble column reactor, VDI/GVC, 99-104, Preprints of the 5th German-Japanese Symposium on Bubble Columns, VDI-Verlag, 2000 [Abstract] [BibTeX] [PDF]
Becker, C.; Kilian, S.; Turek, S. Consequences of modern hardware design for numerical simulations and their realization in FEAST, Amestoy, P., Berger, P., Dayde, M., Duff, I., Fraysse, V., Giraud, L., Ruiz, D., Lecture Notes in Computer Science, 643-650, Euro-Par 1999 Parallel Processing, Springer, Toulouse, France, 1999, doi: 10.1007/3-540-48311-x_90, 1999 [Abstract] [BibTeX] [PDF]
Turek, S.; Becker, C.; Kilian, S. Some concepts of the software package FEAST, Palma, J., Dongarra, J., Hernandes, V., Lecture Notes in Computer Science, 1573, 271-284, Vector and Parallel Processing -- VECPAR 1998, Springer, doi:10.1007/10703040_22, 1999 [BibTeX]
Turek, S.; Schäfer, M.; Rannacher, R. Evaluation of a CFD benchmark for laminar flows, Bock, H., Kuznetsov, Y., Glowinski, R., Periaux, J., Rannacher, R., 549-563, ENUMATH 1997: Proceedings of the 2nd European Conference on Numerical Mathematics and Advanced Applications, World Science Publishing, 1998 [BibTeX]
Turek, S.; Becker, C.; Oswald, H. Parallel multilevel algorithms for solving the incompressible Navier--Stokes equations, Proceedings of the High Performance Workshop at the HLRZ Stuttgart, nn, 1998 [BibTeX]
Turek, S.; Altieri, M.; Becker, C.; Kilian, S.; Oswald, H.; Wallis, J. Some basic concepts of FEAST, Notes on Numerical Fluid Mechanics, Proc. 14th GAMM Seminar ``Concepts of Numerical Software``, Vieweg, 1998 [BibTeX]
Kilian, S.; Turek, S. An example for parallel ScaRC and Its application to the incompressible Navier-Stokes equations, Bock, H., Kanschat, G., Rannacher, R., Brezzi, F., Glowinski, R., Kuznetsov, Y., Periaux, J., 389-396, ENUMATH 1997: Proceedings of the 2nd European Conference on Numerical Mathematics and Advanced Applications, World Science Publishing, 1997 [BibTeX]
Turek, S.; Oswald, H. A parallel multigrid algorithm for solving the incompressible Navier--Stokes equations with nonconforming finite elements in three dimensions, Proc. Parallel CFD 1996, Capri/Italy, nn, 1996 [BibTeX]
Turek, S. Recent benchmark computations of laminar flow around a cylinder, Proc. 3rd World Conference in Applied Computational Fluid Mechanics, nn, Freiburg, 1996 [BibTeX] [PDF]
Turek, S. Multigrid techniques for simple discretely divergence-free finite element spaces, Hemker, P., Wesseling, P., Multigrid Methods IV, 321-332, Multigrid Methods IV, http://www.featflow.de/ture/paper/mg_emg93.ps.gz, 1994 [BibTeX]
Turek, S. Tools for predicting incompressible flows via nonconforming finite element models, Peters, A., 1255-1262, Computational Methods in Water Resources X, Kluwer, 1994 [BibTeX]
Turek, S. NSDIV2D -- flow prediction tools via discrete divergence-free finite element models, DGLR--Bericht 92--07, 8. DGLR-Fach-Symposium Strömungen mit Ablösung, Köln-Porz, 1992 [BibTeX]

-Technical Reports-

Turek, S.; Mierka, O. Numerical Simulation and Benchmarking of Drops and Bubbles, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 616, Fakultät für Mathematik, TU Dortmund, 616, 2019 [BibTeX] [PDF]
Sokolov, A.; Davydov, O.; Kuzmin, D.; Westermann, A.; Turek, S. A flux-corrected RBF-FD method for convection dominated problems in domains and on manifolds, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 587, Fakultät für Mathematik, TU Dortmund, 587, 2018 [BibTeX] [PDF]
Ruelmann, H.; Geveler, M.; Turek, S. On the Prospects of Using Machine Learning for the Numerical Simulation of PDEs: Training Neural Networks to Assemble Approximate Inverses, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 581, Fakultät für Mathematik, TU Dortmund, 581, 2018 [BibTeX] [PDF]
Turek, S.; Mierka, O.; Bäumler, K. Numerical Benchmarking for 3D Multiphase Flow: New Results for a Rising Bubble, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 580, Fakultät für Mathematik, TU Dortmund, 580, 2017 [BibTeX] [PDF]
Sokolov, A.; Davydov, O.; Turek, S. Numerical study of the RBF-FD level set based method for partial differential equations on evolving-in-time surfaces, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 579, Fakultät für Mathematik, TU Dortmund, 579, 2017 [BibTeX] [PDF]
Damanik, H.; Turek, S. Natural convection of incompressible viscoelastic fluid flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 577, Fakultät für Mathematik, TU Dortmund, 577, 2017 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Donner, D.; Ruelmann, H.; Höppke, C.; Schneider, D.; Tomaschewski, D.; Turek, S. The ICARUS white paper: A scalable, energy-efficient, solar-powered HPC center based on low power GPUs, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 565, Fakultät für Mathematik, TU Dortmund, 565, 2017 [BibTeX] [PDF]
Mierka, O.; Munir, M.; Spille, C.; Timmermann, J.; Schlüter, M.; Turek, S. Reactive Flow Simulation of Micromixers Based on Grid Deformation Techniques, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 558, Fakultät für Mathematik, TU Dortmund, 558, 2017 [BibTeX] [PDF]
Schröder, J.; Turek, S.; Schwarz, A. Alles im Fluss - Simulationstechniken der Strömungsmechanik in der Materials Chain, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 556, Fakultät für Mathematik, TU Dortmund, 556, 2017 [BibTeX] [PDF]
Geveler, M.; Turek, S. Fundamentals of a numerical cloud computing for applied sciences - Preparing cloud computing for ``Simulation-as-a-Service``, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 555, Fakultät für Mathematik, TU Dortmund, 555, 2017 [BibTeX] [PDF]
Geveler, M.; Turek, S. How applied sciences can accelerate the energy revolution - A pleading for energy awareness in scientific computing, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 554, Fakultät für Mathematik, TU Dortmund, 554, 2017 [BibTeX] [PDF]
Hosseini, B.; Turek, S.; Möller, M.; Palmes, C. Isogeometric Analysis of the Navier-Stokes-Cahn-Hilliard equations with application to incompressible two-phase flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 551, Fakultät für Mathematik, TU Dortmund, 551, 2016 [BibTeX] [PDF]
Kroll, J.; Turek, S.; Westervoß, P. Evaluation of nonlinear differential models for the simulation of polymer melts, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 549, Fakultät für Mathematik, TU Dortmund, 549, 2016 [BibTeX] [PDF]
Safi, A.; Turek, S.; Prasianakis, N. Benchmark Computations for 3D two-phase flows: A coupled lattice Boltzmann-level set study, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 547, Fakultät für Mathematik, TU Dortmund, 547, 2016 [BibTeX] [PDF]
Ibrahim, F.; Hattaf, K.; Rihan, F.; Turek, S. Numerical method based on extended one-step schemes for optimal control problems with time-lags, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 542, Fakultät für Mathematik, TU Dortmund, 542, 2016 [BibTeX] [PDF]
Mandal, S.; Ouazzi, A.; Turek, S. A modified Newton-type solver for yield stress fluids, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 532, Fakultät für Mathematik, TU Dortmund, 532, 2015 [BibTeX] [PDF]
Jendrny, R.; Damanik, H.; Mierka, O.; Turek, S. Numerical studies for flow around a sphere regarding different flow regimes caused by various Reynolds numbers, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 531, Fakultät für Mathematik, TU Dortmund, 531, 2015 [BibTeX] [PDF]
Obaid, A.; Turek, S.; Heider, Y.; Markert, B. A new monolithic Newton-multigrid-based FEM solution scheme for large strain dynamic poroelasticity problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 528, Fakultät für Mathematik, TU Dortmund, 528, 2015 [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S. Towards a monolithic multiphase flow solver via surface stress-based formulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 518, Fakultät für Mathematik, TU Dortmund, 518, 2015 [BibTeX] [PDF]
Safi, A.; Turek, S. Efficient computations for high density ratio rising bubble flows using a diffused interface, coupled lattice Boltzmann-level set scheme, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 513, Fakultät für Mathematik, TU Dortmund, 513, 2015 [BibTeX] [PDF]
Ibrahim, F.; Rihan, F.; Turek, S. Extended One-Step Schemes for Stiff and Non-Stiff Delay Differential Equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 511, Fakultät für Mathematik, TU Dortmund, 511, 2015 [BibTeX] [PDF]
Mierka, O.; Theis, T.; Herken, T.; Turek, S.; Schöppner, V.; Platte, F. Mesh Deformation Based Finite Element - Fictitious Boundary Method (FEM-FBM) for the Simulation of Twin-screw Extruders, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 509, Fakultät für Mathematik, TU Dortmund, 509, 2014 [BibTeX] [PDF]
Safi, A.; Turek, S. GPGPU-based rising bubble simulations using a MRT lattice Boltzmann method coupled with level set interface capturing, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 508, Fakultät für Mathematik, TU Dortmund, 508, 2014 [Abstract] [BibTeX] [PDF]
Qiu, T.; Lee, T.; Mark, A.; Morozov, K.; Münster, R.; Mierka, O.; Turek, S.; Leshansky, A.; Fischer, P. Swimming by Reciprocal Motion at Low Reynolds Number, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 495, Fakultät für Mathematik, TU Dortmund, 495, http://www.nature.com/ncomms/2014/141104/ncomms6119/full/ncomms6119.html, 2014 [BibTeX] [PDF]
Hosseini, B.; Möller, M.; Turek, S. Isogeometric Analysis of the Navier-Stokes equations with Taylor-Hood B-spline elements, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 505, Fakultät für Mathematik, TU Dortmund, 505, 2014 [BibTeX] [PDF]
Sokolov, A.; Strehl, R.; Ali, R.; Turek, S. Numerical framework for pattern-forming models on evolving-in-time surfaces, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 503, Fakultät für Mathematik, TU Dortmund, 503, 2014 [BibTeX] [PDF]
Sokolov, A.; Ali, R.; Turek, S. An AFC-stabilized implicit finite element method for partial differential equations on evolving-in-time surfaces, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 502, Fakultät für Mathematik, TU Dortmund, 502, 2014 [BibTeX] [PDF]
Safi, A.; Turek, S. Rising bubble simulations using a multiple relaxation time lattice Boltzmann method coupled with level set interface capturing, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 500, Fakultät für Mathematik, TU Dortmund, 500, 2014 [BibTeX] [PDF]
Serdas, S.; Schwarz, A.; Schröder, J.; Turek, S.; Ouazzi, A.; Nickaeen, M. Least-squares finite element methods for the Navier-Stokes equations for generalized Newtonian fluids, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 499, Fakultät für Mathematik, TU Dortmund, 499, 2014 [BibTeX] [PDF]
Qiu, T.; Lee, T.; Mark, A.; Morozov, K.; Münster, R.; Mierka, O.; Turek, S.; Leshansky, A.; Fischer, P. Swimming by Reciprocal Motion at Low Reynolds Number, NCOMMS, online: doi http://www.nature.com/ncomms/2014/141104/ncomms6119/full/ncomms6119.html, 2014 [BibTeX]
Ibrahim, F.; Salama, A.; Turek, S. A class of Extended one-step methods for solving delay differential equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 487, Fakultät für Mathematik, TU Dortmund, 487, 2013 [BibTeX] [PDF]
Ouazzi, A.; Nickaeen, M.; Turek, S.; Waseem, M. Newton-Multigrid Least-Squares FEM for S-V-P Formulation of the Navier-Stokes Equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 486, Fakultät für Mathematik, TU Dortmund, 486, 2013 [BibTeX] [PDF]
Damanik, H.; Ouazzi, A.; Turek, S. Numerical simulation of polymer film stretching, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 485, Fakultät für Mathematik, TU Dortmund, 485, 2013 [BibTeX] [PDF]
Turek, S.; Obaid, A.; Markert, B. On a fully implicit, monolithic FEM-multigrid solution approach for dynamic porous media problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 483, Fakultät für Mathematik, TU Dortmund, 483, 2013 [BibTeX] [PDF]
Hinze, M.; Köster, M.; Turek, S. Space-time Newton-multigrid strategies for nonstationary distributed and boundary flow control problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 482, Fakultät für Mathematik, TU Dortmund, 482, 2013 [BibTeX] [PDF]
Theis, T.; Ouazzi, A.; Mierka, O.; Turek, S. Modeling of the Boundary Regions between a Spreading Droplet and a Rough Surface of Solid, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 480, Fakultät für Mathematik, TU Dortmund, 480, 2013 [BibTeX] [PDF]
Turek, S.; Möller, M.; Razzaq, M.; Rivkind, L. Efficient Simulation and Optimization of Rotationally Symmetric, Converging-Diverging de Laval Nozzles for Twin Wire Arc Spraying, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 481, Fakultät für Mathematik, TU Dortmund, 481, 2013 [BibTeX] [PDF]
Ibrahim, F.; Salama, A.; Ouazzi, A.; Turek, S. Extended one-step methods for solving delay-differential equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 479, Fakultät für Mathematik, TU Dortmund, 479, 2013 [Abstract] [BibTeX] [PDF]
Schwarz, A.; Nickaeen, M.; Serdas, S.; Nisters, C.; Ouazzi, A.; Schröder, J.; Turek, S. A comparative study of mixed least-squares FEMs for the incompressible Navier-Stokes equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 478, Fakultät für Mathematik, TU Dortmund, 478, 2013 [BibTeX] [PDF]
Razzaq, M.; Tsotskas, C.; Turek, S.; Kipouros, T.; Savill, M.; Hron, J. Multi-Objective Optimization of a Fluid Structure Interaction Benchmarking, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 472, Fakultät für Mathematik, TU Dortmund, 472, 2013 [BibTeX] [PDF]
Turek, S.; Obaid, A.; Markert, B. FAST SOLVERS AND EFFICIENT NUMERICAL CFD TECHNIQUES FOR DYNAMIC POROUS MEDIA PROBLEMS, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 470, Fakultät für Mathematik, TU Dortmund, 470, 2013 [BibTeX] [PDF]
Bayraktar, E.; Mierka, O.; Turek, S. Numerical Solutions of Population Balance Equations within Liquid/Gas–Liquid Flow Simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 471, Fakultät für Mathematik, TU Dortmund, 471, 2013 [BibTeX] [PDF]
Köster, M.; Hinze, M.; Turek, S. Multigrid-based Solution Methods for the Optimal Control of Nonstationary Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 468, Fakultät für Mathematik, TU Dortmund, 468, 2013 [Abstract] [BibTeX] [PDF]
Bayraktar, E.; Özkaya, E.; Münster, R.; Biermann, D.; Turek, S. Nozzle Design for Low-Pressure Micro Abrasive Waterjet Blasting via CFD Simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 465, Fakultät für Mathematik, TU Dortmund, 465, 2013 [BibTeX] [PDF]
Nickaeen, M.; Ouazzi, A.; Turek, S. Newton multigrid least-squares FEM for the V-V-P formulation of the Navier-Stokes equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 466, Fakultät für Mathematik, TU Dortmund, 466, 2013 [BibTeX] [PDF]
Sokolov, A.; Strehl, R.; Turek, S. Numerical simulation of chemotaxis models on stationary surfaces, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 463, Fakultät für Mathematik, TU Dortmund, 463, 2012 [BibTeX] [PDF]
Turek, S.; Obaid, A.; Markert, B. On special CFD techniques for the efficient solution of dynamic porous media problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 461, Fakultät für Mathematik, TU Dortmund, 461, 2012 [BibTeX] [PDF]
Mierka, O.; Damanik, H.; Turek, S. Numerical simulation of mondisperse droplet generation in nozzles, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 452, Fakultät für Mathematik, TU Dortmund, 452, 2012 [BibTeX] [PDF]
Ouazzi, A.; Theis, T.; Turek, S. FEM-Simulation des Erstarrungsvorgangs von Einzeltröpfchen mittels Enthalpie Modell, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 460, Fakultät für Mathematik, TU Dortmund, 460, 2012 [BibTeX] [PDF]
Kühbacher, C.; Möller, M.; Turek, S. Ein dG-FEM-Verfahren zur Lösung der Konvektions-Diffusionsgleichung mit Hilfe von Mehrgitterverfahren, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 459, Fakultät für Mathematik, TU Dortmund, 459, 2012 [BibTeX] [PDF]
Hussain, S.; Schieweck, F.; Turek, S.; Zajac, P. On a Galerkin discretization of 4th order in space and time applied to the heat equation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 458, Fakultät für Mathematik, TU Dortmund, 458, 2012 [Abstract] [BibTeX] [PDF]
Münster, R.; Mierka, O.; Turek, S. Finite Element-Fictitious Boundary Methods (FEM-FBM) for time-dependent multiphase flow problems - Application to Sedimentation Benchmarks, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 457, Fakultät für Mathematik, TU Dortmund, 457, 2012 [BibTeX] [PDF]
Razzaq, M.; Tsotskas, C.; Turek, S.; Hron, J.; Kipouros, T.; Savill, M. Insight into Fluid Structure Interaction Benchmarking through Multi-Objective Optimization, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 456, Fakultät für Mathematik, TU Dortmund, 456, 2012 [BibTeX] [PDF]
Turek, S.; Damanik, H.; Hron, J.; Ouazzi, A. Efficient FEM Solvers for Inocmpressible Nonlinear Flow Models, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 453, Fakultät für Mathematik, TU Dortmund, 453, 2012 [BibTeX] [PDF]
Hübner, T.; Mahmood, R.; Turek, S. Fully implicit nonstationary flow simulations with a monolithic off-lattice Boltzmann approach, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 451, Fakultät für Mathematik, TU Dortmund, 451, 2012 [BibTeX] [PDF]
Hysing, S.; Turek, S. Evaluation of commercial and academic CFD codes for a two-phase flow benchmark test case, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 449, Fakultät für Mathematik, TU Dortmund, 449, 2012 [BibTeX] [PDF]
Damanik, H.; Ouazzi, A.; Turek, S. Numerical simulation of a rising bubble in viscoelastic fluids, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 445, Fakultät für Mathematik, TU Dortmund, 445, 2012 [BibTeX] [PDF]
Bayraktar, E.; Münster, R.; Mierka, O.; Turek, S. Numerical Methods to Simulate Turbulent Dispersed Flows in Complex Geometries, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 443, Fakultät für Mathematik, TU Dortmund, 443, 2012 [BibTeX] [PDF]
Hussain, S.; Schieweck, F.; Turek, S. Higher order Galerkin time discretization for nonstationary incompressible flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 444, Fakultät für Mathematik, TU Dortmund, 444, 2012 [Abstract] [BibTeX] [PDF]
Nickaeen, M.; Ashrafizadeh, A.; Turek, S. An Alternative Strategy for the Solution of Heat and Incompressible Fluid Flow Problems via Finite Volume Method, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 441, Fakultät für Mathematik, TU Dortmund, 441, 2011 [BibTeX] [PDF]
Turek, S.; Kuzmin, D. Algebraic Flux Correction III Incompressible Flow Problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 440, Fakultät für Mathematik, TU Dortmund, 440, 2011 [Abstract] [BibTeX] [PDF]
Turek, S.; Mierka, O.; Hysing, S.; Kuzmin, D. Numerical study of a high order 3D FEM-Level Set approach for immiscible flow simulation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 437, Fakultät für Mathematik, TU Dortmund, 437, 2011 [Abstract] [BibTeX] [PDF]
Weichert, F.; Walczak, L.; Fisseler, D.; Opfermann, T.; Razzaq, M.; Münster, R.; Turek, S.; Grunwald, I.; Roth, A.; Veith, C.; Wagner, M. Simulation of Intra-Aneurysmal Blood Flow by using Different Numerical Methods, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 436, Fakultät für Mathematik, TU Dortmund, 436, 2011 [Abstract] [BibTeX] [PDF]
Strehl, R.; Sokolov, A.; Turek, S. Efficient, accurate and flexible Finite Element solvers for Chemotaxis problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 435, Fakultät für Mathematik, TU Dortmund, 435, 2011 [Abstract] [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Towards a complete FEM-based simulation toolkit on GPUS: Unstructured Grid Finite Element Geometric Multigrid solvers with strong smoothers based on Sparse Approximate Inverses, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 434, Fakultät für Mathematik, TU Dortmund, 434, 2011 [Abstract] [BibTeX] [PDF]
Bayraktar, E.; Mierka, O.; Turek, S. Benchmark Computations of 3D Laminar Flow Around a Cylinder with CFX, OpenFOAM and FeatFlow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 433, Fakultät für Mathematik, TU Dortmund, 433, 2011 [Abstract] [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. Monolithic Newton-multigrid solution techniques for incompressible nonlinear flow models, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 426, Fakultät für Mathematik, TU Dortmund, 426, 2011 [BibTeX] [PDF]
Hussain, S.; Schieweck, F.; Turek, S. A note on accurate and efficient higher order Galerkin time stepping schemes for the nonstationary Stokes equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 424, Fakultät für Mathematik, TU Dortmund, 424, 2011 [Abstract] [BibTeX] [PDF]
Bayraktar, E.; Mierka, O.; Platte, F.; Kuzmin, D.; Turek, S. Numerical Aspects and Implementation of Population Balance Equations Coupled with Turbulent Fluid Dynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 423, Fakultät für Mathematik, TU Dortmund, 423, 2011 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Towards a complete FEM-based simulation toolkit on GPUs: Geometric multigrid solvers, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 422, Fakultät für Mathematik, TU Dortmund, 422, 2011 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Efficient Finite Element Geometric Multigrid Solvers for Unstructured Grids on GPUs , Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 419, Fakultät für Mathematik, TU Dortmund, 419, 2011 [Abstract] [BibTeX] [PDF]
Köster, M.; Ouazzi, A.; Schieweck, F.; Turek, S.; Zajac, P. New robust nonconforming finite elements of higher order, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 418, Fakultät für Mathematik, TU Dortmund, 418, 2011 [Abstract] [BibTeX] [PDF]
Strehl, R.; Sokolov, A.; Kuzmin, D.; Horstmann, D.; Turek, S. A positivity-preserving finite element method for chemotaxis problems in 3D, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 417, Fakultät für Mathematik, TU Dortmund, 417, 2010 [Abstract] [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. Implicit Finite Element Schemes for the Stationary Compressible Euler Equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 414, Fakultät für Mathematik, TU Dortmund, 414, 2010 [Abstract] [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. Implicit Finite Element Schemes for Stationary Compressible Particle-Laden Gas Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 415, Fakultät für Mathematik, TU Dortmund, 415, 2010 [Abstract] [BibTeX] [PDF]
Münster, R.; Mierka, O.; Turek, S. Finite Element fictitious boundary methods (FEM-FBM) for 3D particulate flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 413, Fakultät für Mathematik, TU Dortmund, 413, 2010 [Abstract] [BibTeX] [PDF]
Turek, S.; Mierka, O.; Hysing, S.; Kuzmin, D. A high order 3D FEM-Level Set approach for multiphase flow with application to monodisperse droplet generation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 411, Fakultät für Mathematik, TU Dortmund, 411, 2010 [Abstract] [BibTeX] [PDF]
Cai, M.; Turek, S. Numerical Studies of Time Dependent Ginzburg-Landau Model by FEM with Moving Grid Deformation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 409, Fakultät für Mathematik, TU Dortmund, 409, 2010 [Abstract] [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. A Newton-like Finite Element Scheme for Compressible Gas Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 408, Fakultät für Mathematik, TU Dortmund, 408, 2010 [Abstract] [BibTeX] [PDF]
Turek, S.; Göddeke, D.; Buijssen, S.; Wobker, H. Hardware-Oriented Multigrid Finite Element Solvers on GPU-Accelerated Clusters, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 406, Fakultät für Mathematik, TU Dortmund, 406, 2010 [BibTeX] [PDF]
Turek, S.; Hron, J.; Razzaq, M.; Wobker, H.; Schäfer, M. Numerical Benchmarking of Fluid-Structure Interaction: A comparison of different discretization and solution approaches, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 405, Fakultät für Mathematik, TU Dortmund, 405, 2010 [Abstract] [BibTeX] [PDF]
Ribbrock, D.; Geveler, M.; Göddeke, D.; Turek, S. Performance and Accuracy of Lattice-Boltzmann Kernels on Multi- and Manycore Architectures, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 404, Fakultät für Mathematik, TU Dortmund, 404, 2010 [Abstract] [BibTeX] [PDF]
Turek, S.; Hron, J.; Madlik, M.; Razzaq, M.; Wobker, H.; Acker, J. Numerical simulation and benchmarking of a monolithic multigrid solver for fluid-structure interaction problems with application to hemodynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 403, Fakultät für Mathematik, TU Dortmund, 403, 2010 [Abstract] [BibTeX] [PDF]
Turek, S.; Göddeke, D.; Becker, C.; Buijssen, S.; Wobker, H. FEAST -- Realisation of hardware-oriented Numerics for HPC simulations with Finite Elements, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 401, Fakultät für Mathematik, TU Dortmund, 401, 2010 [Abstract] [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Turek, S. Lattice-Boltzmann Simulation of the Shallow-Water Equations with Fluid-Structure Interaction on Multi- and Manycore Processors, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 400, Fakultät für Mathematik, TU Dortmund, 400, 2009 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Hron, J.; Turek, S. FEM techniques for the LCR reformulation of viscoelastic flow problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 399, Fakultät für Mathematik, TU Dortmund, 399, 2009 [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. Finite element discretization and Newton-multigrid solution techniques for the log-conformation reformulation (LCR) of viscoelastic flow problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 396, Fakultät für Mathematik, TU Dortmund, 396, 2009 [BibTeX] [PDF]
Strehl, R.; Sokolov, A.; Kuzmin, D.; Turek, S. A flux-corrected finite element method for chemotaxis problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 395, Fakultät für Mathematik, TU Dortmund, 395, 2009 [Abstract] [BibTeX] [PDF]
Razzaq, M.; Turek, S.; Hron, J.; Acker, J. Numerical simulation and benchmarking of fluid-structure interaction with application to hemodynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 393, Fakultät für Mathematik, TU Dortmund, 393, with support by F. Weichert, I. Q. Grunwald, C. Roth, M. Wagner, B. F. Romeike, 2009 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Acceleration of an Unmodified Parallel Finite Element Navier–Stokes Solver, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 392, Fakultät für Mathematik, TU Dortmund, 392, 2009 [Abstract] [BibTeX]
Grajewski, M.; Köster, M.; Turek, S. A new multilevel grid deformation method, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 390, Fakultät für Mathematik, TU Dortmund, 390, 2009 [Abstract] [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. Finite Element Simulation of Compressible Particle-Laden Gas Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 388, Fakultät für Mathematik, TU Dortmund, 388, 2009 [Abstract] [BibTeX] [PDF]
Kheiripour Langroudi, M.; Turek, S.; Ouazzi, A.; Tardos, G. An investigation of frictional and collosional powder flows using unified constitutive equation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 387, Fakultät für Mathematik, TU Dortmund, 387, 2009 [Abstract] [BibTeX] [PDF]
Razzaq, M.; Turek, S.; Hron, J. Numerical simulation of laminar incompressible fluid-structure interaction with application to aneurysm hemodynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 385, Fakultät für Mathematik, TU Dortmund, 385, 2009 [Abstract] [BibTeX] [PDF]
Hinze, M.; Köster, M.; Turek, S. A Hierarchical Space-Time Solver for Optimal Distributed Control of Fluid Flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 383, Fakultät für Mathematik, TU Dortmund, 383, 2008 [BibTeX] [PDF]
Köster, M.; Göddeke, D.; Wobker, H.; Turek, S. How to gain speedups of 1000 on single processors with fast FEM solvers - Benchmarking numerical and computational efficiency, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 382, Fakultät für Mathematik, TU Dortmund, 382, 2008 [Abstract] [BibTeX] [PDF]
Bayraktar, E.; Mierka, O.; Platte, F.; Kuzmin, D.; Turek, S. Modeling and numerical aspects of population balance equations in gas/liquid-liquid two phase flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 374, Fakultät für Mathematik, TU Dortmund, 374, 2008 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Köster, M.; Turek, S. A new multilevel grid deformation method, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 372, Fakultät für Mathematik, TU Dortmund, 372, 2008 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Wobker, H.; Göddeke, D.; Turek, S. FEASTSolid and FEASTFlow: FEM applications exploiting FEAST`s HPC technologies, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 371, Fakultät für Mathematik, TU Dortmund, 371, 2008 [Abstract] [BibTeX] [PDF]
Finn, R.; Ouazzi, A.; Turek, S. Maximum principle and gradient estimates for stationary solutions of the Navier--Stokes equations; a partly experimental investigation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 369, Fakultät für Mathematik, TU Dortmund, 369, 2008 [Abstract] [BibTeX] [PDF]
Olshanskii, M.; Sokolov, A.; Turek, S. Error analysis of a projection method for the Navier--Stokes equations with coriolis force, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 368, Fakultät für Mathematik, TU Dortmund, 368, 2008 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Wobker, H.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Turek, S. Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 367, Fakultät für Mathematik, TU Dortmund, 367, 2008 [Abstract] [BibTeX] [PDF]
Razzaq, M.; Hron, J.; Turek, S. Numerical simulation of laminar incompressible fluid-structure interaction for elastic material with point constraints, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 366, Fakultät für Mathematik, TU Dortmund, 366, 2008 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Köster, M.; Turek, S. Mathematical and numerical analysis of a robust and efficient grid deformation method in the finite element context, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 365, Fakultät für Mathematik, TU Dortmund, 365, 2008 [Abstract] [BibTeX] [PDF]
Tillmann, W.; Vogli, E.; Abdulgader, M.; Gurris, M.; Kuzmin, D.; Turek, S. Particle trajectories by arc spraying with cored wires, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 363, Fakultät für Mathematik, TU Dortmund, 363, 2008 [Abstract] [BibTeX] [PDF]
Turek, S.; Göddeke, D.; Becker, C.; Buijssen, S.; Wobker, H. UCHPC - UnConventional High Performance Computing for finite element simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 360, Fakultät für Mathematik, TU Dortmund, 360, 2008 [Abstract] [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. A monolithic FEM approach for non-isothermal incompressible viscous flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 359, Fakultät für Mathematik, TU Dortmund, 359, 2008 [Abstract] [BibTeX] [PDF]
Sokolov, A.; Turek, S.; Olshanskii, M. Numerical study of a discrete projection method for rotating incompressible flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 357, Fakultät für Mathematik, TU Dortmund, 357, 2007 [Abstract] [BibTeX] [PDF]
Hübner, T.; Turek, S. Efficient simulation techniques of the Lattice Boltzmann equation on unstructured meshes, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 355, Fakultät für Mathematik, TU Dortmund, 355, 2007 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Buijssen, S.; Grajewski, M.; Turek, S. Exploring weak scalability for FEM calculations on a GPU-enhanced cluster, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 354, Fakultät für Mathematik, TU Dortmund, 354, 2007 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Wobker, H.; Becker, C.; Turek, S. Using GPUs to improve multigrid solver performance on a cluster, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 353, Fakultät für Mathematik, TU Dortmund, 353, 2007 [Abstract] [BibTeX] [PDF]
Sokolov, A.; Olshanskii, M.; Turek, S. A discrete projection method for incompressible viscous flow with coriolis force, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 352, Fakultät für Mathematik, TU Dortmund, 352, 2007 [Abstract] [BibTeX] [PDF]
Hysing, S.; Turek, S.; Kuzmin, D.; Parolini, N.; Burman, E.; Ganesan, S.; Tobiska, L. Proposal for quantitative benchmark computations of bubble dynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 351, Fakultät für Mathematik, TU Dortmund, 351, 2007 [Abstract] [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Hron, J. On Pressure Separation Algorithms (PSEPA) for improving the accuracy of incompressible flow simulations , Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 349, Fakultät für Mathematik, TU Dortmund, 349, 2007 [Abstract] [BibTeX] [PDF]
Lindner, F.; Platte, F.; Agar, D.; Turek, S. Effect of intermediated chemical compounds NO on the hybrid N2O decomposition under periodical flow reversal conditions, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 348, Fakultät für Mathematik, TU Dortmund, 348, 2007 [Abstract] [BibTeX] [PDF]
Anca, D.; Turek, S. A new immersed boundary and moving mesh method for particulate flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 347, Fakultät für Mathematik, TU Dortmund, 347, 2007 [Abstract] [BibTeX] [PDF]
Platte, F.; Mierka, O.; Hysing, S.; Kashid, M.; Turek, S. Mathematical modeling and numerical simulations of reactive flows in channels, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 346, Fakultät für Mathematik, TU Dortmund, 346, 2007 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Mierka, O.; Turek, S. On the implementation of the k-epsilon turbulence model in incompressible flow solvers based on a finite element discretization , Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 345, Fakultät für Mathematik, TU Dortmund, 345, 2007 [Abstract] [BibTeX] [PDF]
Kashid, M.; Rivas, D.; Agar, D.; Turek, S. On the hydrodynamics of liquid-liquid slug flow capillary microreactors, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 344, Fakultät für Mathematik, TU Dortmund, 344, 2007 [Abstract] [BibTeX] [PDF]
Hübner, T.; Turek, S. An efficient and accurate short-characteristics solver for radiative transfer problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 343, Fakultät für Mathematik, TU Dortmund, 343, 2007 [Abstract] [BibTeX] [PDF]
Wobker, H.; Turek, S. Numerical studies of Vanka-type smoothers in computational solid mechanics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 342, Fakultät für Mathematik, TU Dortmund, 342, 2007 [Abstract] [BibTeX] [PDF]
Rivas, D.; Kashid, M.; Agar, D.; Turek, S. Slug flow capillary microreactor: Hydrodynamic study, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 336, Fakultät für Mathematik, TU Dortmund, 336, 2006 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Strzodka, R.; Turek, S. Performance and accuracy of hardware-oriented native-, emulated- and mixed-precision solvers in FEM simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 334, Fakultät für Mathematik, TU Dortmund, 334, 2006 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Becker, C.; Turek, S. Integrating GPUs as fast co-processors into the existing parallel FE package FEAST, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 332, Fakultät für Mathematik, TU Dortmund, 332, 2006 [Abstract] [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. A high-resolution scheme of TVD type for the Aw-Rascle Greenberg model of traffic flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 329, Fakultät für Mathematik, TU Dortmund, 329, 2006 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Turek, S. Adaptivity techniques in High Performance FEM Simulation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 327, Fakultät für Mathematik, TU Dortmund, 327, 2006 [BibTeX] [PDF]
Turek, S.; Ouazzi, A. Numerical simulation of powder flow by Finite Element methods, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 326, Fakultät für Mathematik, TU Dortmund, 326, 2006 [Abstract] [BibTeX] [PDF]
Kashid, M.; Agar, D.; Turek, S. CFD modelling of mass transfer with and without chemical reaction in the liquid-liquid slug flow capillary microreactor, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 325, Fakultät für Mathematik, TU Dortmund, 325, 2006 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Mehrmann, V.; Schlauch, S.; Sokolov, A.; Turek, S. Population Balances Coupled with the CFD-Code FeatFlow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 324, Fakultät für Mathematik, TU Dortmund, 324, 2006 [Abstract] [BibTeX] [PDF]
Hron, J.; Turek, S. A monolithic FEM solver for an ale formulation of fluid-structure interaction with configuration for numerical benchmarking, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 321, Fakultät für Mathematik, TU Dortmund, 321, 2006 [Abstract] [BibTeX] [PDF]
Anca, D.; Turek, S.; Wan, D. Fictitious boundary and moving mesh methods for the numerical simulation of particulate flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 320, Fakultät für Mathematik, TU Dortmund, 320, 2006 [Abstract] [BibTeX] [PDF]
Mierka, O.; Kuzmin, D.; Turek, S. Finite element simulation of turbulent bubbly flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 317, Fakultät für Mathematik, TU Dortmund, 317, 2006 [Abstract] [BibTeX] [PDF]
Henning, L.; Kuzmin, D.; Mehrmann, V.; Schmidt, M.; Sokolov, A.; Turek, S. Flow control on the basis of a FEATFLOW-MATLAB coupling, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 316, Fakultät für Mathematik, TU Dortmund, 316, 2006 [Abstract] [BibTeX] [PDF]
Acker, J.; Hron, J.; Preusser, T.; Rumpf, M.; Turek, S. FEM techniques for multiscale visualization of time-dependent flow fields, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 314, Fakultät für Mathematik, TU Dortmund, 314, 2006 [Abstract] [BibTeX] [PDF]
Köster, M.; Turek, S. On multigrid convergence for quadratic finite elements, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 313, Fakultät für Mathematik, TU Dortmund, 313, 2006 [Abstract] [BibTeX] [PDF]
Turek, S.; Hron, J. Proposal for numerical benchmarking of fluid-structure interaction between an elastic object and laminar incompressible flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 312, Fakultät für Mathematik, TU Dortmund, 312, 2006 [Abstract] [BibTeX] [PDF]
Hron, J.; Turek, S. A monolithic FEM/Multigrid solver for ALE formulation of fluid structure interaction with application in biomechanics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 311, Fakultät für Mathematik, TU Dortmund, 311, 2006 [Abstract] [BibTeX] [PDF]
Wan, D.; Turek, S. Fictitious boundary and moving mesh methods for the numerical simulation of rigid particulate flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 310, Fakultät für Mathematik, TU Dortmund, 310, 2006 [Abstract] [BibTeX] [PDF]
Becker, C.; Buijssen, S.; Wobker, H.; Turek, S. FEAST: Development of HPC technologies for FEM applications, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 307, Fakultät für Mathematik, TU Dortmund, 307, 2005 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Efficient multigrid and data structures for edge-oriented FEM stabilization, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 306, Fakultät für Mathematik, TU Dortmund, 306, 2005 [Abstract] [BibTeX] [PDF]
Wan, .; Turek, S. Numerical Simulation of Coupled Fluid-Solid Systems by Fictitious Boundary and Grid Deformation Methods, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 305, Fakultät für Mathematik, TU Dortmund, 305, 2005 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S.; Haario, H. Finite element simulation of turbulent bubbly flows in gas-liquid reactors, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 298, Fakultät für Mathematik, TU Dortmund, 298, 2005 [Abstract] [BibTeX] [PDF]
Köster, M.; Turek, S. A note on optimal multigrid convergence for higher-order FEM, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 296, Fakultät für Mathematik, TU Dortmund, 296, 2005 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Köster, M.; Kilian, S.; Turek, S. Numerical analysis and practical aspects of a robust and efficient grid deformation method in the finite element context, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 294, Fakultät für Mathematik, TU Dortmund, 294, 2005 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Wobker, H.; Turek, S. High Performance FEM Simulation in CFD and CSM, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 293, Fakultät für Mathematik, TU Dortmund, 293, 2005 [Abstract] [BibTeX] [PDF]
Wobker, H.; Turek, S.; Svendsen, B. High Performance Computing Techniques for the FEM Simulation in CSM, Annual Report for the NRW Graduate School of Production Engineering and Logistics, 2005 [BibTeX]
Göddeke, D.; Strzodka, R.; Turek, S. Accelerating Double Precision FEM Simulations with GPUs, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 292, Fakultät für Mathematik, TU Dortmund, 292, 2005 [Abstract] [BibTeX] [PDF]
Köster, M.; Platte, F.; Turek, S. Speed-up of FEM simulation for granular flow via optimised Numerical linear Algebra software, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 290, Fakultät für Mathematik, TU Dortmund, 290, 2005 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Wobker, H.; Turek, S. High Performance FEM Simulation in CFD and CSM, p.46--49, Research Report, NRW Graduate School of Production Engineering and Logistics, 2005 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit finite element discretizations based on the flux corrected transport algorithm, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 285, Fakultät für Mathematik, TU Dortmund, 285, 2005 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Unified edge-oriented stabilization of nonconforming finite element methods for incompressible flow problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 284, Fakultät für Mathematik, TU Dortmund, 284, 2005 [Abstract] [BibTeX] [PDF]
Turek, S.; Rivkind, L.; Hron, J.; Glowinski, R. Numerical analysis of a new time-stepping theta-scheme for incompressible flow simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 282, Fakultät für Mathematik, TU Dortmund, 282, 2005 [Abstract] [BibTeX] [PDF]
Hysing, S.; Turek, S. The eikonal equation: Numerical efficiency vs. algorithmic complexity on quadrilateral grids, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 280, Fakultät für Mathematik, TU Dortmund, 280, 2004 [Abstract] [BibTeX] [PDF]
Kashid, M.; Platte, F.; Agar, D.; Turek, S. Computational modelling of slug flow in a capillary microreactor, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 279, Fakultät für Mathematik, TU Dortmund, 279, 2004 [Abstract] [BibTeX] [PDF]
Kashid, M.; Gerlach, I.; Goetz, S.; Franzke, J.; Acker, J.; Platte, F.; Agar, D.; Turek, S. Internal circulation within the liquid slugs of liquid-liquid slug flow capillary microreactor, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 278, Fakultät für Mathematik, TU Dortmund, 278, 2004 [Abstract] [BibTeX] [PDF]
Wan, D.; Turek, S. An Efficient Multigrid-FEM Method for the Simulation of Liquid-Solid Two Phase Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 277, Fakultät für Mathematik, TU Dortmund, 277, 2004 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit FEM-FCT algorithm for compressible flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 276, Fakultät für Mathematik, TU Dortmund, 276, 2004 [Abstract] [BibTeX] [PDF]
Wan, D.; Turek, S. Direct numerical simulation of particulate flow via multigrid FEM techniques and the fictitious boundary method, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 275, Fakultät für Mathematik, TU Dortmund, 275, Submitted to IGNMF 2005, 2004 [Abstract] [BibTeX] [PDF]
Geller, S.; Krafczyk, M.; Tölke, J.; Turek, S.; Hron, J. Benchmark computations based on Lattice-Boltzmann, Finite Element and Finite Volume Methods for laminar Flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 274, Fakultät für Mathematik, TU Dortmund, 274, 2004 [Abstract] [BibTeX] [PDF]
Nalpantidis, K.; Platte, F.; Agar, D.; Turek, S. Influence of axially structured catalyst in reverse flow reactor on the hybrid N2O decomposition, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 273, Fakultät für Mathematik, TU Dortmund, 273, 2004 [Abstract] [BibTeX] [PDF]
Platte, F.; Kuzmin, D.; Fredebeul, C.; Turek, S. Novel simulation approaches for cyclic-steady-state fixed-bed processes exhibiting sharp fronts and shocks, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 272, Fakultät für Mathematik, TU Dortmund, 272, 2004 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Grajewski, M.; Turek, S.; Wobker, H. High Performance FEM Simulation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 271, Fakultät für Mathematik, TU Dortmund, 271, 2004 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Grajewski, M.; Turek, S.; Wobker, H. High Performance FEM Simulation, p.52--55, Research Report, NRW Graduate School of Production Engineering and Logistics , 2004 [Abstract] [BibTeX] [PDF]
Turek, S.; Kuzmin, D. Algebraic flux correction III. incompressible flow problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 270, Fakultät für Mathematik, TU Dortmund, 270, 2004 [Abstract] [BibTeX] [PDF]
Hron, J.; Ouazzi, A.; Turek, S. Finite element methods for the simulation of incompressible powder flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 269, Fakultät für Mathematik, TU Dortmund, 269, 2004 [Abstract] [BibTeX] [PDF]
Kashid, M.; Acker, J.; Platte, F.; Agar, D.; Turek, S. Internal circulations inside the liquid slugs of liquid-liquid slug flow capillary microreactor, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 262, Fakultät für Mathematik, TU Dortmund, 262, 2004 [Abstract] [BibTeX] [PDF]
Kashid, M.; Rivkind, L.; Turek, S. Numerical laboratory for master`s course in ROBOTICS AND AUTOMATION, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 255T, Fakultät für Mathematik, TU Dortmund, 255T, 2004 [BibTeX]
Kuzmin, D.; Turek, S. Numerical simulation of turbulent bubbly flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 254, Fakultät für Mathematik, TU Dortmund, 254, 2004 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Multidimensional FEM-TVD paradigm for convection-dominated flows, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 253, Fakultät für Mathematik, TU Dortmund, 253, 2004 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Hron, J.; Turek, S. Dual weighted a posteriori error estimation for a new nonconforming linear finite element on quadrilaterals, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 247, Fakultät für Mathematik, TU Dortmund, 247, 2004 [Abstract] [BibTeX] [PDF]
Wan, D.; Turek, S.; Rivkind, L. An efficient multigrid FEM solution technique for incompressible flow with moving rigrid bodies, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 245, Fakultät für Mathematik, TU Dortmund, 245, 2003 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Numerical methods and simulation techniques for flow with shear and pressure dependent viscosity, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 241, Fakultät für Mathematik, TU Dortmund, 241, 2003 [Abstract] [BibTeX] [PDF]
Grajewski, M.; Hron, J.; Turek, S. Numerical analysis and a-posteriori error control for a new nonconformining linear finite element on quadrilaterals, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 238, Fakultät für Mathematik, TU Dortmund, 238, 2003 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Turek, S. parpp3d++ - a parallel HPC code for the incompressible nonstationary Navier--Stokes equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 237, Fakultät für Mathematik, TU Dortmund, 237, 2003 [Abstract] [BibTeX] [PDF]
Turek, S.; Wan, D.; Rivkind, L. The fictitious boundary method for the implicit treatment of Dirichlet boundary conditions with applications to incompressible flow simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 236, Fakultät für Mathematik, TU Dortmund, 236, 2003 [Abstract] [BibTeX] [PDF]
Turek, S.; Becker, C.; Kilian, S. Hardware-oriented numerics and concepts for PDE software, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 235, Fakultät für Mathematik, TU Dortmund, 235, to be published in a special issue on PDE Software in the Elsevier journal Future Generation Computer Systems, 2003 [BibTeX]
Kuzmin, D.; Möller, M.; Turek, S. High resolution FEM-FCT schemes for multidimenstional conservation laws, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 231, Fakultät für Mathematik, TU Dortmund, 231, 2003 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. High resolution FEM-TVD schemes based on a fully multidimensional flux limiter, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 229, Fakultät für Mathematik, TU Dortmund, 229, 2003 [Abstract] [BibTeX] [PDF]
Hron, J.; Ouazzi, A.; Turek, S. A computational comparison of two FEM solvers for nonlinear incompressible flow, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 228, Fakultät für Mathematik, TU Dortmund, 228, 2003 [Abstract] [BibTeX] [PDF]
Ziethe, R.; Spohn, T.; Turek, S. Core formation: A new modelling approach, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 225, Fakultät für Mathematik, TU Dortmund, 225, 2002 [BibTeX]
Kuzmin, D.; Turek, S. Finite element discretization and iterative solution techniques for multiphase flows in gas-liquid reactors, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 222, Fakultät für Mathematik, TU Dortmund, 222, 2002 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit flux-corrected transport algorithm for finite element simulation of the compressible Euler equations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 221, Fakultät für Mathematik, TU Dortmund, 221, 2002 [Abstract] [BibTeX] [PDF]
Buijssen, S.; Turek, S. Sources of parallel inefficiency for incompressible CFD simulations, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 219, Fakultät für Mathematik, TU Dortmund, 219, 2002 [Abstract] [BibTeX] [PDF]
Turek, S.; Schmachtel, R. Fully coupled and operator-splitting approaches for natural convection flows in enclosures, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 218, Fakultät für Mathematik, TU Dortmund, 218, 2002 [BibTeX]
Kuzmin, D.; Turek, S. High performance computing für Mehrphasenströmungen, Uni-Report 35, 2002 [Abstract] [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Schmachtel, R. Multigrid methods for stabilized nonconforming finite elements for incompressible flow involving the deformation tensor formulation, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 216, Fakultät für Mathematik, TU Dortmund, 216, 2002 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Möller, M.; Turek, S. Multidimensional FEM-FCT schemes for arbitrary time-stepping, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 215, Fakultät für Mathematik, TU Dortmund, 215, 2002 [Abstract] [BibTeX] [PDF]
Platte, F.; Turek, S.; Agar, D.; Fredebeul, C. Cyclic steady state behaviour of a reverse flow reactor in analysis of high temperature reactions, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 210, Fakultät für Mathematik, TU Dortmund, 210, 2001 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Flux correction tools for finite elements, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 209, Fakultät für Mathematik, TU Dortmund, 209, 2001 [Abstract] [BibTeX] [PDF]
Bertran, X.; Olivier, H.; Turek, S. Analysis of unsteady airfoils at low speeds, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 202, Fakultät für Mathematik, TU Dortmund, 202, 2001 [Abstract] [BibTeX] [PDF]
Kuzmin, D.; Turek, S. Efficient numerical techniques for flow simulation in bubble column reactors, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 196, Fakultät für Mathematik, TU Dortmund, 196, 2000 [Abstract] [BibTeX] [PDF]
Turek, S. Harte Nuss: Numerische Simulation von Strömungen, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 195, Fakultät für Mathematik, TU Dortmund, 195, 2000 [BibTeX]
Turek, S. CFD for incompressible flow: Numerical efficiency vs. gigaflops, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 194, Fakultät für Mathematik, TU Dortmund, 194, 2000 [BibTeX]
Acker, J.; Turek, S. Postprocessing of FEATFLOW data with the particle tracing tool GMVPT (Version 1.2), Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 193, Fakultät für Mathematik, TU Dortmund, 193, 2000 [Abstract] [BibTeX] [PDF]
Becker, C.; Rannacher, R.; Turek, S. An efficient Navier--Stokes solver for automotive aerodynamics, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 191, Fakultät für Mathematik, TU Dortmund, 191, 2000 [BibTeX]
Buijssen, S.; Turek, S. Batch-oriented MPEG generation with GMV in background mode, Preprints SFB 359 Nummer 99--29, Universität Heidelberg, 99--29, 1999 [Abstract] [BibTeX] [PDF]
Acker, J.; Turek, S. Postprocessing of 2D FEATFLOW data with the particle tracing tool GMVPT, Preprints SFB 359 Nummer 99--28, Universität Heidelberg, 99--28, 1999 [BibTeX]
Acker, J.; Turek, S. 3D Presentation of FEATFLOW data with GMV, Preprints SFB 359 Nummer 99--19, Universität Heidelberg, 99--19, 1999 [BibTeX]
Becker, C.; Runge, A.; Turek, S. The FEAST INDICES - Realistic evaluation of modern software components and processor technologies, Preprints SFB 359 Nummer 99--17, Universität Heidelberg, 99--17, 1999 [BibTeX]
Becker, C.; Turek, S. FEATFLOW -- Finite element software for the incompressible Navier--Stokes equations, User Manual, 1999 [BibTeX]
Altieri, M.; Becker, C.; Turek, S. Proposal for SPARSE BANDED BLAS techniques, Preprints SFB 359 Nummer 99--11, Universität Heidelberg, 99--11, 1999 [BibTeX]
Becker, C.; Runge, A.; Turek, S. Performance rating via the FEAST INDICES, Preprints SFB 359 Nummer 99--09, Universität Heidelberg, 99--09, 1999 [BibTeX]
Becker, C.; Turek, S.; Waguet, C.; FEAST Group, . Application of DEVISORGRID 1.0 in the FEATFLOW software, Preprints SFB 359 Nummer 98--53, Universität Heidelberg, 98--53, 1998 [BibTeX]
Turek, S. Konsequenzen eines numerischen `Elch Tests` für Computersimulationen, Preprints SFB 359 Nummer 98--46, Universität Heidelberg, 98--46, 1998 [BibTeX]
Altieri, M.; Becker, C.; Turek, S. On the realistic performance of certain linear algebra components in iterative solvers, Preprints SFB 359 Nummer 98--31, Universität Heidelberg, 98--31, 1998 [BibTeX]
Altieri, M.; Becker, C.; Kilian, S.; Oswald, H.; Turek, S.; Wallis, J. Some basic concepts of FEAST, Preprints SFB 359 Nummer 98--28, Universität Heidelberg, 98--28, 1998 [BibTeX] [PDF]
Rannacher, R.; Schäfer, M.; Turek, S. Evaluation of a CFD benchmark for laminar flows, Preprints SFB 359 Nummer 98--23, Universität Heidelberg, 98--23, 1998 [BibTeX]
Kilian, S.; Turek, S. An example for parallel ScaRC and its application to the incompressible Navier--Stokes equations, Preprints SFB 359 Nummer 98--06, Universität Heidelberg, 98--06, 1998 [BibTeX]
Becker, C.; Turek, S. FEATFLOW Finite element software for the incompressible Navier--Stokes equations: User manual Release 1.1, 1998 [BibTeX]
Acker, J.; Rivkind, L.; Turek, S. Software-Praktikum für Anfänger, Wintersemester 1998/99 - Skriptum 99--01, 1998 [BibTeX]
Schäfer, M.; Turek, S. Benchmark computations of laminar flow around a cylinder, Preprints SFB 359 Nummer 96--03, Universität Heidelberg, 96--03, 1996 [Abstract] [BibTeX] [PDF]
Turek, S. A comparative study of some time-stepping techniques for the incompressible Navier--Stokes equations: From fully implicit nonlinear schemes to semi-implicit projection methods, Preprints SFB 359 Nummer 95--10, Universität Heidelberg, 95--10, 1995 [BibTeX]
Rannacher, R.; Turek, S.; Wehrse, R. Numerical methods for multidimensional radiative transfer problems, SFB 359 - Contributions to a workshop at the University of Heidelberg, 1994, 1994 [BibTeX]
Turek, S. On discrete projection methods for the incompressible Navier--Stokes equations: an algorithmical approach, Preprints SFB 359 Nummer 94--70, Universität Heidelberg, 94--70, 1994 [BibTeX]
Turek, S.; Wehrse, R. Spectral appearance of dust enshrouded stars: A combination of a strongly accelerated solution technique with a finite element approach for 2D radiative transfer , Astronomy and Astrophysics, 1994 [BibTeX]
Müller, S.; Prohl, A.; Rannacher, R.; Turek, S. Implicit time-discretization of the nonstationary incompressible Navier--Stokes equations, Preprints SFB 359 Nummer 94--34, Universität Heidelberg, 94--34, 1994 [BibTeX]
Turek, S. Multigrid techniques for a divergence-free finite element discretization, Preprints SFB 359 Nummer 94--21, Universität Heidelberg, 94--21, 1994 [BibTeX]
Harig, P.; Schreiber, P.; Turek, S. FEAT3D - Finite element analysis tools in 3 dimensions user manual. Release 1.2, Preprints SFB 359 Nummer 94--19, Universität Heidelberg, 94--19, 1994 [BibTeX]
Turek, S. A generalized mean intensity approach for the numerical solution of the radiative transfer equation, Preprints SFB 359 Nummer 94--04, Universität Heidelberg, 94--04, 1994 [BibTeX]
Schreiber, P.; Turek, S. Multigrid results for the nonconforming Morley element, Preprints SFB 359 Nummer 93--67, Universität Heidelberg, 93--67, 1993 [BibTeX]
Turek, S. An efficient solution techniques for the radiative transfer equation, Preprints SFB 359 Nummer 93--08, Universität Heidelberg, 93--08, 1993 [BibTeX]
Màlek, J.; Turek, S. Divergence-free finite elements, Preprints SFB 123 Nummer 687, Universität Heidelberg, 687, 1992 [BibTeX]
Heywood, J.; Rannacher, R.; Turek, S. Artificial boundaries and flux and pressure conditions for the incompressible Navier--Stokes equations, Preprints SFB 123 Nummer 681, Universität Heidelberg, 681, 1992 [BibTeX]
Turek, S. Visualization tools for the nonstationary Navier--Stokes equations, Preprints SFB 123 Nummer 680, Universität Heidelberg, 680, 1992 [BibTeX]
Turek, S. Tools for simulationg nonstationary incompressible flow via discretely divergence-free finite element models, Preprints SFB 123 Nummer 679, Universität Heidelberg, 679, 1992 [BibTeX]
Turek, S. Ein robustes und effizientes Mehrgitterverfahren zur Lösung der instationären, inkompressiblen 2-D Navier-Stokes-Gleichungen mit diskret divergenzfreien finiten Elementen, Preprints SFB 123 Nummer 642, Universität Heidelberg, 642, 1991 [BibTeX]
Turek, S. On ordering strategies in a multigrid algorithm, Preprints SFB 123 Nummer 653, Universität Heidelberg, 653, 1991 [BibTeX]
Rannacher, R.; Turek, S. A simple nonconforming quadrilateral {Stokes} element, Preprints SFB 123 Nummer 567, Universität Heidelberg, 567, 1990 [BibTeX] [PDF]
Turek, S. A multigrid Stokes solver using divergence free finite elements, Preprints SFB 123 Nummer 527, Universität Heidelberg, 527, 1989 [BibTeX]

-Promotionen und Habilitationen-

Hübner, T. A Monolithic, Off-Lattice Approach to the Discrete Boltzmann Equation with Fast and Accurate Numerical Methods, 2011 [BibTeX]
Razzaq, M. Finite element simulation techniques for incompressible fluid-structure interaction with applications to bio-engineering and optimization, 2011 [BibTeX]
Damanik, H. FEM Simulation of Non-isothermal Viscoelastic Fluids, 2011 [BibTeX]
Göddeke, D. Fast and Accurate Finite-Element Multigrid Solvers for PDE Simulations on GPU Clusters, http://hdl.handle.net/2003/27243 ( http://www.logos-verlag.de/cgi-bin/buch?isbn=2768), 2010 [BibTeX]
Gurris, M. Implicit Finite Element Schemes for Compressible Gas and Particle-Laden Gas Flows, 2010 [BibTeX]
Wobker, H. Efficient Multilevel Solvers and High Performance Computing Techniques for the Finite Element Simulation of Large-Scale Elasticity Problems, http://hdl.handle.net/2003/26998, 2010 [BibTeX]
Möller, M. Adaptive high-resolution finite element schemes, 2008 [BibTeX]
Platte, F. Modellierung und Simulation zyklisch betriebener Festbettprozesse am Beispiel der hybriden Distickstoffoxid-Zersetzung unter Strömungsumkehr, ISBN 978-3-8325-1921-6, Logos Verlag, 2008 [BibTeX]
Grajewski, M. A new fast and accurate grid deformation method for r--adaptivity in the context of high performance computing, http://www.logos-verlag.de/cgi-bin/buch?isbn=1903, ISBN 978-3-8325-1903-2, 2008 [Abstract] [BibTeX]
Sokolov, A. Analysis and numerical realisation of discrete projection methods for rotation incompressible flows, 2008 [BibTeX]
Kashid, M. Experimental and Modelling Studies on Liquid-Liquid Slug Flow Capillary Microreactors, 2007 [BibTeX]
Hysing, S. Numerical simulation of immiscible fluids with FEM level set techniques, 2007 [BibTeX]
Becker, C. Strategien und Methoden zur Ausnutzung der High-Performance-Ressourcen moderner Rechnerarchitekturen für Finite-Element-Simulationen und ihre Realisierung in FEAST (Finite Element Analysis & Solution Tools), http://www.logos-verlag.de/cgi-bin/buch?isbn=1637, ISBN 978-3-8325-1637-6, 2007 [BibTeX]
Ouazzi, A. Finite element simulation of nonlinear fluids with application to granular material and powder, PhD Thesis, 2005 [BibTeX]
Schmachtel, R. Robuste lineare und nichtlineare Lösungsverfahren für die inkompressiblen Navier--Stokes-Gleichungen, PhD Thesis, 2003 [BibTeX]
Kilian, S. ScaRC: Ein verallgemeinertes Gebietszerlegungs-/Mehrgitterkonzept auf Parallelrechnern, http://www.logos-verlag.de/cgi-bin/buch?isbn=0092, ISBN 978-3-8325-0092-4, 2001 [BibTeX]
Oswald, H. Parallel multigrid algorithms for solving the incompressible Navier--Stokes equations with nonconforming finite elements in three dimensions, (mit R. Rannacher), 1998 [BibTeX]
Turek, S. Multilevel pressure Schur Complement Techniques for the numerical solution of the incompressible Navier--Stokes equations, Habilitation Thesis, 1997 [BibTeX]
Schreiber, P. A new finite element solver for the nonstationary incompressible Navier--Stokes equations in three dimensions, 1996 [BibTeX]
Turek, S. Ein robustes Mehrgitterverfahren zur Lösung der instationären, inkompressiblen 2D Navier-Stokes-Gleichungen mit diskret divergenzfreien Finiten Elementen, 1991 [BibTeX]

-Diplom- und Masterarbeiten-

Zajac, P. Nicht-Konforme Finite Elemente Höherer Ordnung, 2011 [BibTeX]
Theis, T. Ausgewählte Aspekte zur numerischen Simulation eines gleichläufigen Doppelschneckenextruders mittels Finite Elemente Methode in 3D, 2011 [BibTeX]
Klinger, M. Numerische Analyse von a posteriori Fehlerschätzungen für das dG(0)-Verfahren, 2010 [BibTeX]
Kronewald, J. Mathemathische Modellierung der Chemotaxis, 2010 [BibTeX]
Sacharov, V. Fehleranalyse des nichtkonformen Crouzeix-Raviart-Elements, 2010 [BibTeX]
Ribbrock, D. Entwurf einer Softwarebibliothek zur Entwicklung portabler, hardwareorientierter HPC Anwendungen am Beispiel von Strömungssimulationen mit der Lattice Boltzmann Methode, 2009 [BibTeX]
Geveler, M. Echtzeitfähige Interaktion von Festkörpern mit 2D Lattice-Boltzmann Flachwasserströmungen in 3D Virtual-Reality Anwendungen, 2009 [BibTeX]
Kühbacher, C. Hochauflösende Finite Elemente Methoden mit Anwendung auf die Flachwassergleichungen, 2009 [BibTeX]
Hein, M. Effiziente Distanzberechnung und Punktklassifizierung für NURBS-basierte CAD-Modelle zur Gitteradaption in der numerischen Strömungssimulation, 2007 [BibTeX]
Münster, R. Effiziente dynamische Suchdatenstrukturen zur Distanzberechnung in numerischen Strömungssimulationen, 2007 [BibTeX]
Miemczyk, M. Hexaeder-Gittergenerierung durch Kombination von Gitterdeformations-, Randadaptions- und „Fictitious-Boundary“-Techniken zur Strömungssimulation um komplexe dreidimensionale Objekte, 2007 [BibTeX]
Gurris, M. Makroskopische Straßenverkehrsmodelle und Diskretisierung des Modells von Aw und Rascle mit einem hochauflösenden Verfahren vom TVD-Typ, 2006 [BibTeX]
Becker, H. GPU-basierte Echtzeit-Simulation und Visualisierung von Shallow Water Equations, 2006 [BibTeX]
Augst, S. Numerische Simulation von Strömungen in keramischen Plattenwärmetuaschern und katalytisch beschichteten keramischen Mikroreaktoren, 2006 [BibTeX]
Xu, J. Evaluation of interface tracking schemes with finite element discretizations, 2006 [BibTeX]
Dinakaran, S. Investigation of numerical FSI configurations with rigid body motion and elastic objects, 2006 [BibTeX]
Panduranga, R. Numerical analysis of new grid deformation method in three-dimensional finite element applications, 2006 [BibTeX]
Shaik, I. Numerical analysis of the fictitious boundary method for fluid-structure interaction with thin objects, 2006 [BibTeX]
Vemulamanda, S. Numerical study and stability analysis of a steady state flow with temperature and shear dependent viscosity in a heat exchanger, 2005 [BibTeX]
Nanam, S. Comparison between advanced finite element and finite difference methods for the direct calculation of cyclic fixed bed processes, 2005 [BibTeX]
Sasidhar, P. Benchmarking of stabilization techniques for flow simulations with quadratic finite elements, 2005 [BibTeX]
Hübner, T. Spezielle Diskretisierungs- und Lösungsmethoden für Integro-Differentialgleichungen am Beispiel der Strahlungstransportgleichung, 2005 [BibTeX]
Köster, M. Robuste Mehrgitter-Krylowraum-Techniken für FEM-Verfahren, Diploma thesis, 2004 [BibTeX]
Göddeke, D. Geometrische Projektionstechniken auf Oberflächentriangulierung zur numerischen Strömungssimulation mit hierarchischen Mehrgitterverfahren, 2004 [BibTeX]
Grajewski, M. Numerische Analyse einer nichtkonformen linearen Finite-Elemente-Methode auf Vierecksgittern, 2003 [BibTeX]
Möller, M. Hochauflösende FEM-FCT-Verfahren zur Diskretisierung von konvektionsdominanten Transportproblemen mit Anwendung auf die kompressiblen Eulergleichungen, 2003 [BibTeX]
Acker, J. Effiziente Realisierung von hierarchischen Pre- und Postprocessingmethoden in der mathematischen Strömungssimulation, 2003 [BibTeX]
Buijssen, S. Numerische Analyse eines parallelen 3-D-Navier-Stokes-Lösers, 2002 [BibTeX]
Altieri, M. Robuste und effiziente Mehrgitter-Verfahren auf verallgemeinerten Tensorprodukt-Gittern, 2001 [BibTeX]

Talks

Authors Title / Event / Year Download
Geveler, M.; Ruelmann, H.; Turek, S. Machine Learning Approaches for the Acceleration of the Linear Solver in PDE Simulations, , April 2019, Workshop on Machine Learning Algorithms in Scientific Computing, Nottingham [BibTeX] [PDF]
Sokolov, A.; Kuzmin, D.; Davydov, O.; Turek, S. A flux-corrected RBF-FD method for convection dominated problems in domains and on manifolds, Workshop on Variational Multiscale Methods and Stabilized Finite Elements (VMS), Berlin, Dezember 2018 [BibTeX] [PDF]
Sokolov, A.; Kuzmin, D.; Davydov, O.; Turek, S. A flux-corrected RBF-FD method for convection dominated problems in domains and on manifolds, Workshop on Multiscale modeling and simulations to bridge molecular and cellular scales, Oktober 2018, Pisa, 01. - 05. Oktober 2018 [BibTeX] [PDF]
Damanik, H.; Turek, S. Natural Convection of Incompressible Viscoelastic Fluid Flow, ISER - 231st International Conference on Heat Transfer and Fluid Flow (ICHTFF), Dezember 2017, Jakarta, Indonesia on 12th-13th December, 2017 [BibTeX] [PDF]
Sokolov, A.; Davydov, O.; Turek, S. Numerical solution of surface PDEs with Radial Basis Functions, Workshop Icerm: Localized Kernel-Based Meshless Methods for Partial Differential Equations, Aug 2017 [BibTeX] [PDF]
Hosseini, B.; Turek, S.; Möller, M. Isogeometric Analysis of the Navier-Stokes-Cahn-Hilliard equations with application to incompressible two-phase flows, IACM 19th International Conference on Finite Elements in Flow Problems - FEF 2017, Rome, Italy, April 2017 [BibTeX] [PDF]
Geveler, M.; Turek, S. Fundamentals of a numerical cloud computing for applied sciences – Preparing cloud computing for 'Simulation as a Service', Cloud consultation workshop, Brüssel, November 2016, https://www.ec.europa.eu/digital-single-market/en/news/consultation-cloud-computing-research-innovation-challenges-wp-2018-2020 [BibTeX] [PDF]
Geveler, M.; Reuter, B.; Göddeke, D.; Aizinger, V.; Turek, S. Energy efficiency of the simulation of three-dimensional coastal ocean circulation on modern commodity and mobile processors, EnA-HPC, ISC, Frankfurt, Juni 2016 [BibTeX] [PDF]
Münster, R.; Mierka, O.; Turek, S. Particulate Flow Simulations with Complex Geometries using the Finite Element-Fictitious Boundary Method, Workshop Particle Simulations 2015, September 2015 [BibTeX] [PDF]
Münster, R.; Mierka, O.; Turek, S. Particulate Flow Simulations with Complex Geometries using the Finite Element-Fictitious Boundary Method, 14th Workshop on Two-Phase Flow Predictions, September 2015 [BibTeX] [PDF]
Nguyen, T.; Fogal, T.; Münster, R.; Kempf, A.; Krüger, J.; Turek, S. A virtual, interactive numerical wind-tunnel with GPU acceleration, real time visualization and real time interaction, , November 2015 [BibTeX] [PDF]
Geveler, M.; Köhler, M.; Ribbrock, D.; Saak, J.; Truschkewitz, G.; Benner, P.; Turek, S. Future Data Centers for Energy-Efficient Large Scale Numerical Simulations, 7th KoMSO Challenge Workshop, Heidelberg, Oktober 2015 [BibTeX] [PDF]
Ibrahim, F.; Rihan, F.; Turek, S. Stabilized Extended One-Step Schemes for Stiff and Non-Stiff Delay Differential Equations, NUMDIFF-14, September 2015, 2015 [BibTeX] [PDF]
Turek, S.; Mierka, O. Numerical simulation techniques for the efficient and accurate treatment of local fluidic transport processes together with chemical reactions, Jahrestreffen DFG SPP 1740 Hamburg, September 2015 [BibTeX] [PDF]
Ali, R.; Sokolov, A.; Strehl, R.; Turek, S. Numerical framework for pattern-forming models on evolving-in-time surfaces, International Conference on Mathematical Methods and Models in Biosciences and Young Scientist School, 2015, Balagoevgrad June 14 – 19, 2015 [BibTeX] [PDF]
Turek, S.; Mierka, O. Numerische Simulation zur Herstellung monodisperser Tropfen in pneumatischen Ziehdüsen, DFG – SPP 1423 „Prozess-Spray“, Juni 2015 [BibTeX] [PDF]
Razzaq, M.; Turek, S. Featflow Fluid-structure interaction with applications, CIIT Isamabad, Pakistan, Mai 2015, Recent Advances in Computational Fluid Dynamics, May 28-29, 2015 [BibTeX] [PDF]
Mierka, O.; Turek, S. Numerical simulation techniques for the efficient and accurate treatment of local fluidic transport processes together with chemical reactions, , 2015, 1st Workshop SPP 1740, Kaiserslautern [BibTeX] [PDF]
Geveler, M.; Turek, S.; Ribbrock, D. Realization of a low energy HPC platform powered by renewables - A case study: Technical, numerical and implementation aspects, PACO15: Workshop on Power Aware Computing, invited lecture, Max-Planck Institute for Dynamics of complex technical systems, Magdeburg, Juli 2015 [BibTeX] [PDF]
Ribbrock, D.; Müthing, S.; Geveler, M.; Göddeke, D.; Turek, S.; Bastian, P. Integrating multi-threading and accelerators into DUNE-ISTL, Sparse Solvers for Exascale, März 2015 [BibTeX] [PDF]
Hosseini, B.; Möller, M.; Turek, S. Taylor-Hood B-spline elements for the Isogeometric Analysis of the Navier-Stokes equations, , März 2015, Delft, University of Technology [BibTeX] [PDF]
Turek, S.; FEAST Group, . Hardware-oriented Numerics for PDE and Unconventional High Performance Computing Techniques, , Februar 2015, Vortrag VDEh Kreuztal [BibTeX] [PDF]
Turek, S.; Münster, R.; Mierka, O. Finite Element-Fictitious Boundary Methods for the Numerical Simulation of Particulate Flows, Kolloquium Darmstadt, November 2014 [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Razzaq, M.; Turek, S. Simulation of “Extreme Fluids”, Workshop extreme fluidics, Heidelberg, November 2014 [BibTeX] [PDF]
Mandal, S.; Ouazzi, A.; Turek, S. Efficient FEM-multigrid solver for granular material, , September 2014, STW user committee meeting [BibTeX] [PDF]
Ibrahim, F.; Turek, S.; Köster, M. Optimal Solvers for Elliptic Optimal Control Problems, ICAAMMP 2014, 2014, Istanbul, Turkey [BibTeX] [PDF]
Safi, A.; Turek, S. Benchmark computations for high density and viscosity ratio rising bubble problems using coupled Lattice Boltzmann-Level Set Methods, ICMMES 2014, Juli 2014, New York [BibTeX] [PDF]
Safi, A.; Turek, S. Simulation of rising bubbles using a new multiple relaxation time lattice Boltzmann method coupled with level set interface capturing, , 2014, Gamm-Seminar [BibTeX] [PDF]
Damanik, H.; Ouazzi, A.; Turek, S. A curvature-free level set FEM approach for multiphase flow problems, ICNMMF-II 2014, 2014, TU Darmstadt (30.06.-02.06.2014) [BibTeX] [PDF]
Turek, S.; Göddeke, D. Exascale Techniques for Numerics for PDEs (Part I), Dagstuhl Seminar 13381: Algorithms and Scheduling Techniques for Exascale Systems Schloss Dagstuhl, Germany September 15-20, 2013, 2013 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Turek, S. Exascale techniques for Numerics for PDEs Part II, Dagstuhl Seminar 13381: Algorithms and Scheduling Techniques for Exascale Systems Schloss Dagstuhl, Germany September 15-20, 2013 , 2013 [Abstract] [BibTeX] [PDF]
Damanik, H.; Mierka, O.; Ouazzi, A.; Turek, S. A Multigrid LCR-FEM solver for viscoelastic fluids with application to problems with free surface, Enumath 2013, Aug 2013 [BibTeX] [PDF]
Turek, S.; Damanik, H.; Mierka, O.; Münster, R. 3D Level Set - FEM Techniques for (non - Newtonian) Multiphase Flow Problems Benchmarking and Applications to Monodisperse Droplet Generation and Micro-Encapsulation, Enumath Lausanne, Aug 2013 [BibTeX] [PDF]
Nickaeen, M.; Ouazzi, A.; Turek, S.; Waseem, M. Newton-Multigrid Least-Squares FEM for V-V-P and S-V-P Formulations of the Navier-Stokes Equations, Enumath 2013, Aug 2013 [Abstract] [BibTeX] [PDF]
Turek, S.; Münster, R.; Mierka, O. Finite Element-Fictitious Boundary Methods for the Numerical Simulation of Complex Particulate Flows, Euromech 549, Juni 2013 [BibTeX] [PDF]
Köster, M.; Hinze, M.; Turek, S. Hierarchical Solution Concepts for Flow Control Problems , ASIM 2013, 28.02./01.03. 2013 , Februar 2013 [Abstract] [BibTeX] [PDF]
Köster, M.; Hinze, M.; Turek, S. Hierarchical Solution Concepts for Flow Control Problems , Jahrestagung des SPP1253 der DFG, Kloster Banz, 24.-26.2.2013 , Februar 2013 [BibTeX] [PDF]
Nickaeen, M.; Turek, S.; Ouazzi, A. Newton Multi-grid Solver for the Solution of Incompressible Navier-Stokes Equations with Least-Squares FEM, , 2012, Institute of Mechanics, Faculty of Engineering, Department of Civil Engineering, University of Duisburg-Essen [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. Monolithic Newton-Multigrid FEM techniques for nonlinear problems with special emphasis on viscoelastic fluids, Modelling, Optimization and Simulation of Complex Fluid Flow, 2012, June 20 – 22, 2012 TU Darmstadt [BibTeX] [PDF]
Nickaeen, M.; Ashrafizadeh, A.; Turek, S. Characteristic-Based Finite Volume Method for the Solution of Heat Transfer and Fluid Flow Problems, 11th US National Conference on Computational Mechanics (USNCCM11), Juli 2011, Mini-symposium on Computational Radiative and Convective Heat Transfer in Honor of Professor George Raithby, Minneapolis, University of Minnesota, July, 25-28, 2011 [BibTeX]
Razzaq, M.; Turek, S.; Hron, J. A numerical set-up for benchmarking and optimization of fluid-structure interaction, Integrated multiphysics simulation and Optimization, Dezember 2011, Las Palmas Gran Canaria University, Spain ; 12-13.12.2011 [BibTeX]
Turek, S.; Mierka, O.; Münster, G. On higher order FEM techniques for multiphase flow, Transport Processes at Fluid Interfaces, Dezember 2011 [BibTeX] [PDF]
Bayraktar, E.; Münster, R.; Mierka, O.; Turek, S. Numerical Methods to Simulate Turbulent Dispersed Flows in Complex Geometries, 6`th International Berlin Workshop, November 2011 [BibTeX] [PDF]
Mierka, O.; Ouazzi, A.; Theis, T.; Turek, S. Efficient simulation techniques for incompressible two-phase flow, SFB 708 Kolloquium , November 2011 [BibTeX] [PDF]
Turek, S.; Mierka, O.; Münster, R. On FEM techniques for multiphase flow - Recent developments regarding Numerics and CFD Software, GEOTECH 2011, November 2011 [BibTeX] [PDF]
Mierka, O.; Turek, S. CFD simulation of monodisperse droplet generation by means of jet break-up, DFG-SPP 1423 ``Prozess-Spray``, 2011 [BibTeX] [PDF]
Turek, S.; Göddeke, D. Hardware-oriented Numerics for PDEs - Motivation, Concepts, Applications, Enumath 2011, September 2011 [BibTeX] [PDF]
Damanik, H.; Hron, J.; Ouazzi, A.; Turek, S. Monolithic Newton multigrid FEM techniques for nonlinear problems with special emphasis on viscoelastic fluids, Enumath 2011, 2011, September 5 –9, 2011 University of Leicester, Leicester, UK [Abstract] [BibTeX] [PDF]
Strehl, R.; Sokolov, A.; Turek, S. Efficient, accurate and flexible Finite Element solvers for Chemotaxis, BIOMATH Tagung in Sofia, Juni 2011 [BibTeX] [PDF]
Strehl, R.; Sokolov, A.; Turek, S. Efficient, accurate and flexible Finite Element solvers for Chemotaxis, Forschungsaufenthalt am Konrad Zuse Institut in Berlin, März 2011 [BibTeX] [PDF]
Turek, S.; Mierka, O.; Münster, R. On FEM techniques for multiphase flows, MFMBA 2011, Azoren, Juni 2011, 01. -04. June 2011 [BibTeX] [PDF]
Turek, S.; Mierka, O.; Münster, R. On FEM techniques for multiphase flow, CAO 2011, ECCOMAS Thematic Conference, Jyväskylä, Finland, Juni 2011, June 9-11, 2011 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Towards a complete FEM-based simulation toolkit on GPUs: Geometric Multigrid solvers, 23rd International Conference on Parallel Computational Fluid Dynamics (ParCFD`11), Barcelona, Mai 2011 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Zajac, P.; Turek, S. Efficient Finite Element Geometric Multigrid Solvers for Unstructured Grids on Graphics Processing Units, The Second International Conference on Parallel, Distributed, Grid and Cloud Computing for Engineering, April 2011, Ajaccio [BibTeX] [PDF]
Turek, S.; Mierka, O.; Münster, R. Finite Element-Fictitious Boundary Methods (FEM-FBM) for time-dependent mixing processes in complex geometries, 16th International Conference on Finite Elements in Flow Problems, März 2011 [BibTeX] [PDF]
Turek, S.; Mierka, O.; Münster, R. Finite Element-Fictitious Boundary Methods (FEM-FBM) for time-dependent mixing processes in complex geometries, , Februar 2011 [BibTeX] [PDF]
Turek, S.; Mierka, O. Numerische Simulation zur Herrstellung monodisperser Tropfen in pneumatischen Ziehdüsen, DFG – SPP 1423 Prozess-Spray, Frankfurt, Januar 2011 [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. A Newton –Like Finite Element Solver for Compressible Particle –Laden Gas Flows, ESCO, Pilsen, Juni 2010 [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Damanik, H. Monolithic FEM Techniques for Viscoelastic Flow, ECCOMAS CFD 2010,, Juni 2010 [BibTeX] [PDF]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Cluster Computing for FEM with Applications in CFD and CSM, ECCOMAS-CFD 2010, Lisbon, Portugal, Juni 2010 [BibTeX] [PDF]
Mierka, O.; Turek, S. Numerical Simulation of Monodisperse Droplet Generation in Nozzles, Workshop über Sprays, Techniken der Fluidzerstäubung und Untersuchung von Sprühvorgängen, Mai 2010 [BibTeX] [PDF]
Ribbrock, D.; Geveler, M.; Göddeke, D.; Turek, S. Performance and Accuracy of Lattice-Boltzmann Kernels on Multi- and Manycore Architectures, ICCS, Mai 2010 [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S. Monolithic Newton multigrid FEM techniques for LCR reformulation of viscoelastic flow, VMS 2010 Pau, Mai 2010 [Abstract] [BibTeX] [PDF]
Köster, M.; Turek, S. A Space-Time Multigrid Solver for Optimal Distributed Control of Incompressible Fluid Flow, EMG2010 , September 2010, Isola d`Ischia, 19.-23. Sep. 2010 [Abstract] [BibTeX] [PDF]
Hinze, M.; Turek, S.; Köster, M. Hierarchical Solution Concepts for Flow Control Problems, Part of the SPP1253: Annual Meeting , September 2010, Freising, 12.-14.09.2010 [Abstract] [BibTeX] [PDF]
Turek, S. Fluid-Structure Interaction Problems: FEM Multigrid Techniques and Benchmarking, Eccomas 2010, Paris, Mai 2010 [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S. FEM techniques for nonlinear fluids From non-isothermal, pressure and shear dependent viscosity models to viscoelastic flow, IAMCS Workshop: Complex Fluid Dynamics, März 2010, March 22-25, 2010 KAUST, Thuwal, Saudi Arabia [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Turek, S. Lattice-Boltzmann Simulation of the Shallow-Water Equations with Fluid-Structure Interaction on Multi- and Many-core Processors, Multicore Challenge, März 2010 [BibTeX] [PDF]
Geveler, M.; Ribbrock, D.; Göddeke, D.; Turek, S. Hardware oriented numerics for real-time CFD applications on parallel hardware architectures, Symposium CFD on Future Architectures - Many-Cores, GPUs, FPGAs, Oktober 2009 [BibTeX] [PDF]
Turek, S.; Hron, J.; Razzaq, M.; Wobker, H. Numerical Benchmarking of Fluid-Structure Interaction between elastic object and laminar incompressible flow, Herrsching, Oktober 2009 [BibTeX] [PDF]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Cluster Computing for FEM, GPU Computing in Computational Science and Engineering International Workshop on Computational Engineering Special Topic Fluid-Structure Interaction, Oktober 2009, Herrsching [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Damanik, H. FEM Multigrid Techniques for Viscoelastic Flow, Chinese-German Workshop on Computational and Applied Mathematics 2009, Oktober 2009 [BibTeX] [PDF]
Hinze, M.; Turek, S.; Köster, M. Hierarchical Solution Concepts for Flow Control Problems, Part of the SPP1253: Application for the next period, Freising 2009 , März 2009, Freising, 30. - 31.03.2009 [BibTeX] [PDF]
Hinze, M.; Turek, S.; Köster, M. Hierarchical Solution Concepts for Flow Control Problems, Part of the SPP1253: Annual Meeting, Kloster Banz 2009, Oktober 2009, 04.-06.10.2009 [BibTeX] [PDF]
Köster, M.; Hinze, M.; Turek, S. A Space-Time Multigrid Solver Methodology for the Optimal Control of Time-Dependent Fluid Flow, Trier, 2009 , Juni 2009, 03.-05.06.2009 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Wobker, H.; Buijssen, S.; Turek, S. GPU Cluster Computing for Finite Element Applications, 38th SPEEDUP Workshop on High-Performance Computing, September 2009, EPF Lausanne, Switzerland, September 7, 2009 [Abstract] [BibTeX] [PDF]
Turek, S.; Mierka, O.; Kuzmin, D.; Hysing, S. FEM-Level Set Techniques for Multiphase Flow - Some recent results, Enumath 2009, Uppsala, Juli 2009 [BibTeX] [PDF]
Hron, J.; Pustejovska, P.; Madlik, M.; Turek, S.; Ouazzi, A.; Damanik, H.; Razzaq, M. Monolithic FEM techniques for flows with temperature, pressure and/or shear-dependent viscosity, Enumath 2009, Juni 2009 [BibTeX] [PDF]
Köster, M.; Turek, S. A monolithic space-time multigrid solver for distributed control of the time-dependent Navier-Stokes system, Enumath 2009, Uppsala, Juni 2009 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S.; Hron, J. Monolithic FEM multigrid techniques for the simulation of viscoelastic flow, Enumath 2009, Uppsala, Juni 2009 [BibTeX] [PDF]
Turek, S.; Mierka, O. Numerische Simulation zur Herstellung monodisperser Tropfen in pneumatischen Ziehdüsen, DFG-SPP 1423 ``Prozess-Spray``, Bremen 2009, Juni 2009 [BibTeX] [PDF]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Acceleration of Unmodified CSM and CFD Solvers, High Performance Computing & Simulation Workshop on Architecture-aware Simulation and Computing, Juni 2009 [Abstract] [BibTeX] [PDF]
Turek, S.; Münster, R. Fictitious Boundary and Moving Mesh Methods for the Numerical Simulation of Particulate Flow, Euromech Workshop Immersed boundary methods, Amsterdam, Juni 2009, with support by D. Anca, O. Mierka, K. Usman, D. Wan [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. A Robust Semi-Implicit Finite Element Scheme for Nonlinear Hyperbolic Systems, MAFELAP 2009 , Juni 2009, 9. - 12. Juni 2009, London [BibTeX] [PDF]
Damanik, H.; Razzaq, M.; Ouazzi, A.; Turek, S. FEM multigrid techniques for the simulation of fluid-structure interaction with application to hemodynamics, Numerical Analysis and Scientific Computing with Applications, Mai 2009, May 18-22, 2009, Agadir [BibTeX] [PDF]
Gurris, M.; Kuzmin, D.; Turek, S. Finite Element Simulation of Particle-Laden Gas Flows with Application to the Arc Spraying Process, FEMTEC 2009, Januar 2009, Granlibakken Conference Center, Lake Tahoe, January 5 - 9, 2009 [BibTeX] [PDF]
Göddeke, D.; Turek, S. GPU Cluster Computing for Finite Element Applications, Workshop: Experiences with the GPU and the Cell Processor, Delft, Januar 2009 [BibTeX] [PDF]
Göddeke, D.; Buijssen, S.; Wobker, H.; Turek, S. GPU Cluster Computing for Finite Element Applications, SIAM Conference on Computational Science and Engineering (SIAM CSE09), März 2009, Emerging Manycore Architectures Minisymposium, Miami, Florida [BibTeX] [PDF]
Turek, S.; Razzaq, M.; Hron, J. A numerical set-up for benchmarking and optimization of fluid-structure interaction, A Database Workshop for multi Physics software validation, März 2009, Open Industrial day, Jyvaeskylae, Finland [BibTeX] [PDF]
Turek, S.; Becker, C.; Buijssen, S.; Göddeke, D.; Wobker, H. UnConventional High Performance Computing for Finite Element Simulations, MRSC 2009, März 2009 [BibTeX] [PDF]
Hron, J.; Madlik, M.; Turek, S.; Razzaq, M. A monolithic FEM solver for fluid structure interaction in ALE formulation, International Workshop on Fluid-Structure Interaction Theory, Numerics and Applications, September 2008, Haus der Bayerischen Landwirtschaft Herrsching, 29.09. - 01.10.2008 [BibTeX]
Köster, M.; Hinze, M.; Turek, S. Space-Time Multigrid Techniques for Solving Time-Dependent Optimal Control Problems in CFD, DMV 2008, September 2008 [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Damanik, H. Efficient numerics of non-isothermal highly viscous multiphase flows for the simulation of the production process of graded micro foams, , September 2008, ModSim Kassel [BibTeX] [PDF]
Hübner, T.; Turek, S. Effiziente Diskretisierungs- und Lösungstechniken f¨ur die Lattice-Boltzmann Equation auf unstrukturierten Gittern, , 2008 [BibTeX] [PDF]
Becker, C.; Buijssen, S.; Göddeke, D.; Grajewski, M.; Turek, S.; Wobker, H. Petascale Strategies for FEM Simulations, SIAM Conference on Parallel Processing for Scientific Computing, 2008, Atlanta, Georgia, 12. - 14. März 2008 [Abstract] [BibTeX] [PDF]
Turek, S.; Hron, J.; Wobker, H.; Razzaq, M. FOR 493 - P3: A monolithic multigrid FEM solver for fluid structure interaction, , April 2008 [BibTeX] [PDF]
Turek, S.; Ouazzi, A.; Damanik, H. FEM Multigrid Techniques for Viscoelastic Flow, VMS Workshop, Juni 2008 [BibTeX] [PDF]
Turek, S. UnConventional High Performance Computing for Finite Element Simulations, Modeling, Simulation and Optimization of Complex Processes, Juli 2008 [BibTeX] [PDF]
Turek, S. Fluid Fluid-Structure Interaction Problems: FEM Multigrid Techniques, Benchmarking and (UnConventional ) High Performance Computing , , Juni 2008 [BibTeX]
Mierka, O.; Bayraktar, E.; Turek, S.; Platte, F.; Hirschberg, S.; Schöck, J. Vorhersage der Größenverteilung von Tropfen in statischen Mischern auf Basis eines gekoppelten CFD-Populationsbilanzen-Ansatz, , April 2008, ProcessNet: Jahrestreffen des Fachausschusses Mischvorgänge vom 31.03. - 01.04.2008 [BibTeX] [PDF]
Turek, S. UCHPC - UnConventional High Performance Computing , Dune Workshop, Februar 2008 [BibTeX] [PDF]
Ouazzi, A.; Turek, S.; Hron, J.; Damanik, H. Numerical techniques for FEM simulations of continuum models in biomathematics, Marrakesh International Conference and Workshop on Mathematical Biology, Januar 2008, Marrakesh, January, 3-8, 2008 [Abstract] [BibTeX] [PDF]
Göddeke, D.; Wobker, H.; Strzodka, R.; Mohd-Yusof, J.; McCormick, P.; Turek, S. Co-processor acceleration of an unmodified parallel structural mechanics code with FEAST-GPU , Supercomputing 2007, November 2007, Supercomputing 2007 posters [BibTeX] [PDF]
Turek, S.; Göddeke, D. High Performance Computing for PDE Towards Petascale Computing, , Januar 2007, Vortrag Physik Universität Dortmund [BibTeX] [PDF]
Turek, S.; Ouazzi, A. Some remarks on pressure separation and edge-oriented FEM stabilization for incompressible flow, Mini-Workshop on Variational Multiscale Methods and Stabilized Finite Elements, Februar 2007 [BibTeX] [PDF]
Wobker, H.; Turek, S. High Performance Computing Techniques for the FEM Simulation in Solid Mechanics, Mini-Workshop: Theory and Numerics of Fluid-Solid Interaction, Oberwolfach, November 2007 [BibTeX] [PDF]
Turek, S.; Wobker, H.; Hron, J. A monolithic multigrid FEM solver for fluid structure interaction, , April 2007, FSW 493 [BibTeX] [PDF]
Turek, S.; Hysing, S. FEM techniques for interfacial flows, Workshop on two-phase incompressible flows, Juni 2007 [BibTeX] [PDF]
Hysing, S.; Turek, S. FEM techniques for interfacial flows, ICMF 2007, Juli 2007 [BibTeX] [PDF]
Turek, S.; Hysing, S. FEM techniques for interfacial flows, International Conference of Theoretical and Numerical Fluid Mechanics III, Aug 2007 [BibTeX] [PDF]
Turek, S.; Hysing, S. Benchmark Proposal for Incompressible Two-Phase Flows, Enumath 2007, September 2007 [BibTeX] [PDF]
Turek, S.; Hron, J.; Razzaq, M. Numerical benchmarking of fluid-structure interaction between elastic object and laminar incompressible flow, Enumath 2007, September 2007 [BibTeX] [PDF]
Turek, S.; Damanik, H.; Ouazzi, A. FEM techniques and multigrid solvers for non-isothermal viscoelastic flows, SFB/TR TRR 30 meeting, November 2007 [BibTeX] [PDF]
Acker, J.; Turek, S. PDE based visualization of nonstationary flows, GAMM 2006, März 2006 [Abstract] [BibTeX] [PDF]
Turek, S.; Göddeke, D. High Performance Computing for PDE - Some numerical aspects of Petascale Computing, Dagstuhl, Februar 2006 [Abstract] [BibTeX] [PDF]
Hron, J.; Turek, S. A monolithic multigrid FEM solver for fluid structure interaction and numerical benchmarking, Eccomas CFD 2006, September 2006, In P.Wesseling, E.Onate, and J.Periaux, editors, Proc.ECCOMAS CFD 2006, Egmond aan Zee, The Netherlands, 2006. TU Delft, page 176 [BibTeX] [PDF]
Turek, S.; Hron, J. Numerical benchmarking of fluid-structure interaction between elastic object and laminar incompressible flow, Eccomas CFD 2006, September 2006, In P.Wesseling, E.Onate, and J.Periaux, editors, Proc.ECCOMAS CFD 2006, Egmond aan Zee, The Netherlands, 2006. TU Delft, page 138 [BibTeX] [PDF]
Kashid, M.; Agar, D.; Turek, S. CFD modelling of mass transfer with and without chemical reaction in liquid-liquid slug flow capillary microreactors, 19th International Symposium on Chemical Reaction Engineering (ISCRE), 3-6 September, Potsdam, Berlin. , September 2006 [BibTeX] [PDF]
Turek, S.; Anca, D.; Wan, D. Fictitious Boundary and Moving Mesh Methods for the Numerical Simulation of Particulate Flow, Eccomas CFD 2006, September 2006 [BibTeX] [PDF]
Turek, S.; Ouazzi, A. Numerical Simulation of Powder Flow, Granulare Medien Münster, November 2006 [BibTeX] [PDF]
Turek, S. FEM Techniques for Incompressible Flow Problems with Time Dependent Interfaces, Oberwolfach, Februar 2005 [BibTeX] [PDF]
Turek, S. Effiziente Diskretisierungs- und Lösungsmethoden für Lattice-Boltzmann Gleichungen, LB-Arbeitsgruppe Workshop, April 2005 [BibTeX] [PDF]
Turek, S. Hardware-Oriented Numerics - High Performance FEM Simulation of PDEs, Kolloquiumsvortrag Düsseldorf, April 2005 [BibTeX] [PDF]
Turek, S. FEM Techniques for Particulate Flow, International Workshop on Current Topics in Mathematical Fluid Mechanics MFM 2005, Juni 2005, 17. - 18. Juni 2005, IST-Lisbon, Portugal. In honor of Professor John G. Heywood [BibTeX] [PDF]
Turek, S.; Hron, J.; Köster, M.; Ouazzi, A. Edge-Oriented FEM Stabilization Techniques for Incompressible Flow, Enumath, Juli 2005 [BibTeX] [PDF]
Turek, S.; Wan, D. FEM Techniques for Particulate Flow, Enumath, Juli 2005 [BibTeX] [PDF]
Hron, J.; Turek, S. A monolith FEM solver for fluid structure interaction, Ecomas Thematic Conference: Coupled Problems 2005 Computational Methods for Coupled Problems in Science and Engineering, Mai 2005, 25-27 May 2005, Santorini Island, Greece [BibTeX] [PDF]
Göddeke, D.; Strzodka, R.; Turek, S. Accelerating Double Precision FEM Simulations with GPUs, ASIM 2005 – 18th Symposium on Simulation Technique Workshop Parallel Computing and Graphics Processors, September 2005, Erlangen, Germany, September 12th-15th 2005 [BibTeX] [PDF]
Turek, S.; Hron, J.; Köster, M.; Ouazzi, A. Edge-oriented FEM Stabilization Accuracy, Robustness and Efficient Solvers, 8th European Multigrid Conference Eccomas Thematic Conference on Multigrid, Multilevel and Multiscale Methods, September 2005, Scheveningen, The Hague vom 27. - 30. September 2005 [BibTeX] [PDF]
Turek, S.; Hron, J.; Köster, M.; Ouazzi, A. Edge-oriented FEM Stabilization Techniques for Incompressible Flow, Mini-Workshop Variational Multiscale Methods and Stabilized Finite Elements, Dezember 2005 [BibTeX] [PDF]
Turek, S. FEM Techniques for in Flow Simulation, ASIM, März 2004 [BibTeX] [PDF]
Turek, S. FEM Techniques for Multiphase Flow Simulation, International Workshop: Transport in Fluid Multiphase Systems From Experimental Data to Machnistics Models, März 2004, SFB 540 Aachen [BibTeX] [PDF]
Köster, M.; Turek, S. An Optimal-Order-Multigrid Method for Quadratic Conforming Finite Element , Vortrag Ehrenfriedersdorf, September 2004, 17th Chemnitz FEM Symposium 2004 vom 20. - 22. September 2004 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Efficient Numerical Methods and Simulation Techniques for Granular flow, DFG Assistant Workshop, September 2004, at Karlsruhe University [BibTeX] [PDF]
Grajewski, M.; Turek, S. Concepts of patchwise mesh refinement in the context of DWR , 17th Chemnitz FEM Symposium, September 2004 [Abstract] [BibTeX] [PDF]
Kashid, M.; Platte, F.; Agar, D.; Turek, S. Computational modelling of slug flow in a capillary millireactor, First Indo-German conference on `PDE scientific computing and optimization in Applications`, September 2004, 08. - 10. September 2004 in Trier [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Edge-oriented stabilisation for nonconforming finite element methods , Miniworkshop Göttingen, Dezember 2004 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. An iterative FEM-FCT algorithm for the compressible Euler equations, European Congress on Computational Methods in Applied Sciences and Engineering, Juli 2004, 24.-28.7.2004, University of Jyväskylä, Finnland. [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit finite element discretizations based on the flux-corrected transport algorithm, ICFD Conference on Numerical Methods for Fluid Dynamics , März 2004, 29.3.-1.4. 2004, University of Oxford, England [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Efficient Numerical Methods and Simulation Techniques for Granular flow, DFG Assistant Workshop, Februar 2004, at Duisburg-Essen University [BibTeX] [PDF]
Buijssen, S.; Turek, S. parpp3d++ - a Parallel HPC Research Code for CFD, 6th HLRS Workshop, Stuttgart, Oktober 2003 [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Efficient Numerical Methods and Simulation Techniques for Granular Flow, DFG Assistant Workshop, Februar 2003, at Technical University of Braunschweig [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Numerical Methods and Simulation Techniques for flow with pressure dependent viscosity , Workshop Uni Freiburg, April 2003, [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Numerical Methods and Simulation Techniques for Flow with Shear and Pressure dependent Viscosity , Enumath, Aug 2003, at Charles University Prague Institute of Chemical Technology, PRAGUE, CZECH REPUBLIC [Abstract] [BibTeX] [PDF]
Ouazzi, A.; Turek, S. Efficient Numerical Methods and Simulation Techniques for Granular Flow, DFG Assistent Workshop , September 2003, TU München [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit FEM-FCT algorithm for compressible flows, 13th Conference The Mathematics of Finite Elements and Applications (MAFELAP), Juni 2003, Brunel University, Uxbridge, England, June 21-24, 2003. [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit FEM-FCT algorithm for compressible flows, ENUMATH 2003, Aug 2003, Charles University, Prague, Czech Republic, August 18-22, 2003. [Abstract] [BibTeX] [PDF]
Grajewski, M.; Hron, J.; Turek, S. Numerical analysis and a posteriori error control for a new nonconforming quadrilateral linear finite element, 16th Chemnitz FEM Symposium, 2003, Ehrenfriedersdorf, 22. -24. 9. 2003 [Abstract] [BibTeX] [PDF]
Turek, S.; Wan, D.; Rivkind, L. The Fictitious Boundary Method for the implicit treatment of Dirichlet boundary conditions with applications to incompressible flow simulation, CICS Berlin, Oktober 2002 [BibTeX] [PDF]
Ziethe, R.; Spohn, T.; Turek, S. Core Formation: A New Modelling Approach, 36th ESLAB Symposion Earth-like Planets and Moons, 2002, Nordwijk [BibTeX]
Kuzmin, D.; Möller, M.; Turek, S. Implicit flux-corrected transport algorithm for finite element simulation of the compressible Euler equations, Finite Element Methods: Fifty Years of Conjugate Gradients, Juni 2002, Jyväskylä, Finland, June 11-12, 2002. [Abstract] [BibTeX] [PDF]
Buijssen, S.; Turek, S. Sources of Parallel Inefficiency for Incompressible CFD Simulations, EuroPar 2002, Aug 2002 [Abstract] [BibTeX] [PDF]
Möller, M.; Kuzmin, D.; Turek, S. Implicit FEM-FCT algorithm for multidimensional conservation laws., Computational Methods for Multidimensional Reactive Flows, Dezember 2002, Ruprecht-Karls University, Heidelberg, Germany, December 2-4 2002 [Abstract] [BibTeX] [PDF]
Turek, S. On the Next Generation of CFD Tools, Fluid Conference, Aug 2001, Vancouver [BibTeX] [PDF]
Turek, S. Hardware-oriented Numerics for PDEs - Consequences for Incompressible Flow Solvers, MIT-Conference, Juni 2001, Boston [BibTeX] [PDF]
Turek, S. Computational Prediction of Natural Convection Flows in Enclosures with FeatFlow, MIT-Conference, Juni 2001, Boston [BibTeX] [PDF]
Turek, S. Introduction to Hardware-Oriented Numerics (for PDEs), GAMM2001, Februar 2001, Zuerich [BibTeX] [PDF]
Becker, C.; Kilian, S.; Turek, S. Experiences with the High Performance FEM package FEAST, International FORTWIHR conference, März 2001, Erlangen, Germany [BibTeX] [PDF]
Schmachtel, R.; Turek, S. Numerical Analysis for the Linearized Incompressible Navier-Stokes Equations and the Newton Method, AMFLOW, Januar 2001, Heidelberg [BibTeX]
Ouazzi, A.; Turek, S. Multigrid Methods for Stabilized Nonconforming Finite Element for Incompressible Flow, AMFLOW 2001, Oktober 2001, Workshop on Adaptive Methods for Flow Computation [Abstract] [BibTeX] [PDF]
Turek, S. Efficient Simulation of Nonsteady Incompressible Flow, ALGORITMY2000, September 2000, Slovakia [BibTeX] [PDF]
Turek, S. Concepts of High Performance FEM Simulation and Realization in the FEAST Software, IMACS2000, Aug 2000, Lausanne [BibTeX] [PDF]
Turek, S. On the construction of Discrete Projection Methods, FluidMechanics Conference due to J. Heywood///`s birthday, Mai 2000, Napoli [BibTeX] [PDF]
Turek, S. Efficient numerical solution of incompressible flow problems - Towards adaptive error control, BAMC, April 2000, Manchester [BibTeX] [PDF]
Turek, S. On adaptive time stepping for incompressible flow, GAMM Workshop, Januar 2000, Kiel [BibTeX] [PDF]
Turek, S. Realistic Performance Evaluation of Numerical Simulations, SPEC Workshop, September 1999, Wuppertal [BibTeX] [PDF]
Turek, S. Multilevel Pressure Schur Complement methods for solving the incompressible Navier-Stokes equations: The case of GLOBAL MPSC, ICIAM 99, Juli 1999, Edinburgh [BibTeX] [PDF]
Turek, S. Trends in processor technology and their impact on Numerics for PDE`s, FVCA II, Juli 1999, Duisburg [BibTeX] [PDF]
Turek, S. On implementation techniques for boundary conditions: Applications to CFD, ENUMATH99, Juli 1999, Yvaeskylae [BibTeX] [PDF]
Turek, S. Realistic Performance Evaluation of Numerical Simulations, Mannheimer Supercomputer-Tage 1999, Juni 1999, Mannheim [BibTeX] [PDF]
Turek, S. Simulationswerkzeuge fuer Stroemungsvorgaenge im Automobilbau, BMBF Statusseminar 1999, Februar 1999, Erlangen [BibTeX] [PDF]
Becker, C.; Kilian, S.; Turek, S. Consequences of modern hardware design for numerical simulation and their realization in FEAST, EuroPar99 Parallel Processing, Aug 1999, Toulouse, France [BibTeX] [PDF]
Becker, C.; Kilian, S.; Turek, S. Some concepts of the software package FEAST, Vector and Parallel Processing - VECPAR98, Juni 1998, Porto, Portugal [BibTeX] [PDF]
Turek, S. Tools For Predicting Incompressible Flows Via Nonconforming Finite Element Models, X International Conference on Computational Methods in Water Resources, Juli 1994, SFB 359 [BibTeX]
Schreiber, P.; Turek, S. An efficient finite element solver for the nonstationary incompressible Navier-Stokes equations in two and three dimensions, International Workshop on Numerical Methods for the Navier-Stokes Equations, 1993 [BibTeX]