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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:

Dr. Hogenrich Damanik

Dr. Hogenrich Damanik
RoomM 1030
Telephone(0231) 755-3453
Telefax(0231) 755-5933
E-mail


Curriculum Vitae

Year Finished
2003 Bachelor in Civil engineering Institute Technology Bandung ITB Bandung Indonesia
2005 Master in Computational Engineering Ruhr University Bochum RuB Bochum Germany
2006 Wiss. Ang. Soil Mechanic RUB Bochum
2009 GS Applied Maths TuDo Dortmund Germany
2010 Wiss. Ang. Applied Maths TuDo Dortmund Germany
2011 Promotion
.... Wiss. Ang and Postdoc Applied Maths TuDo Dortmund Germany
2014 CFD lecturer, Faculty of Mathematics, Ruhr University of Bochum Germany
2017 CFD lecturer, Faculty of Mathematics, Ruhr University of Bochum Germany

Tasks

  • Research: Developing numerical simulation of highly viscous non-isothermal viscoelastic fluid flows
  • Supervising: Bachelor and Master thesis
  • Teaching: So2019, Numerical solution to differential equations Wi2018, Matematical modelling of complex fluids So2018, Introduction to CFD So2017, Numerical solution to differential equations Wi2016, Advanced Engineering Mathematics So2016, CFD of non-Newtonian fluid Wi2015, Introduction to CFD

Research Interests

  • FEM for viscoelastic fluid flow modelling
  • viscoelastic simulation
  • viscoelastic experiments
  • elastic turbulence
  • Multiphase viscoelastic flows

Papers

Authors Title / Event / Year Download

Peer-reviewed articles

Fatima, A.; Damanik, H.; Turek, S.; Wolff, R.; Rudloff, J.; Lang, M.; Hochrein, T.; Bastian, M. Mit Simulation zu neuen Materialien, Kunststoffe, 09/2021, 2021 [BibTeX]
Westervoß, P.; Turek, S.; Damanik, H.; Ouazzi, A. The “Tensor Diffusion” approach for simulating viscoelastic fluids, J. Non-Newtonian Fluid Mech., 286, https://doi.org/10.1016/j.jnnfm.2020.104431, 2020 [BibTeX]
Damanik, H.; Turek, S. Natural convection of incompressible viscoelastic fluid flow, International Journal of Advances in Science Engineering and Technology, 6, 1, 75-78, 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]
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]
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]
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]
Damanik, H.; Ouazzi, A.; Turek, S. Numerical simulation of a rising bubble in viscoelastic fluids, Springer, Enumath 2011 - Leiceister, 2011 [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]
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]
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]

Books and chapters

Heim, H.; Ries, A.; Schöppner, V.; Wibbeke, A.; Turek, S.; Damanik, H.; Mahnken, R.; Dammann, C.; Wünsch, O.; Al-Baldawi, A.; Rohde, B.; Brückner-Foit, A.; Gausemeier, J.; Grässler, I.; Petersen, M. Eigenverstärkte Thermoplastverbunde, Kunststoffe, 2++und+3, 35-39 und 72-78, 2014 [BibTeX]
Damanik, H. FEM Simulation of Non-isothermal Viscoelastic Fluids, 2011 [BibTeX]

Preprints

Westervoß, P.; Turek, S.; Damanik, H.; Ouazzi, A. The ``Tensor Diffusion`` approach for simulating viscoelastic fluids, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 617, Fakultät für Mathematik, TU Dortmund, 617, 2019 [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]
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]
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]
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]
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]
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]
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]
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]
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]
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]

Talks

Authors Title / Event / Year Download
Ouazzi, A.; Afaq, A.; Begum, N.; Damanik, H.; Fatima, A.; Turek, S. Generalized quasi-Newtonian approach for modeling and simulating comlex flows, 21st International Mathematics Conference 2019, Dezember 2019 [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S. FEM techniques for nonlinear fluids with application to multiphase flow problem, CoMET 2018, März 2018, 2018 International Conference on Computing, Mathematics and Engineering Technologies, 3-4 March 2018, Sukkur IBA University, Pakistan [BibTeX] [PDF]
Ouazzi, A.; Damanik, H.; Turek, S. Finite element method for nonlinear fluids with complex rheology, 20th International Mathematics conference 2017, Dezember 2017, 8-10 December 2017, University of Dhaka, Dhaka, Bangladesh [Abstract] [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]
Damanik, H.; Hron, J.; Ouazzi, A.; Razzaq, M.; Turek, S. Simulation of “Extreme Fluids”, Workshop extreme fluidics, Heidelberg, November 2014 [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]
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]
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]
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]
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]
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]
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]
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]
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]
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]