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Technische Universität Dortmund
Fakultät für Mathematik — Lehrstuhl 3 für Angewandte Mathematik
Vogelpothsweg 87
44227 Dortmund
Tel.: +49-(0)231-755-3076
Fax: +49-(0)231-755-5933
E-mail:

M. Sc. Arooj Fatima

Technische Universität Dortmund
Fakultät für Mathematik
Lehrstuhl LSIII
Vogelpothsweg 87
44227 Dortmund
M. Sc. Arooj Fatima
RaumM 1022
Telefon(0231) 755-2176
Telefax(0231) 755-5933
E-mail

Curriculum Vitae

2007-2011 B.Sc(Hons) Computational Physics
2011-2014 M.Sc Computational Sciences and Engineering (CS&E)
2015-present PhD Computational Fluid Dynamics (CFD), TU Dortmund, Germany

Tätigkeiten am Lehrstuhl

  • WS2016-17, Advance Enginnering Mathematics (AEM)
  • SS2017, Numerical Solution of Differential Equations (NSODE)
  • SS2017,Numerische Mathematik für Physiker und Ingenieure
  • WS2017-18, Advance Enginnering Mathematics (AEM)
  • SS2018, Numerical Solution of Differential Equations (NSODE)
  • WS2018, Computerorientiertes Problemlösen (COP-Kurs)
  • WS2018-19, Advance Enginnering Mathematics (AEM)
  • SS2019, Numerical Solution of Differential Equations (NSODE)
  • WS2019, Computerorientiertes Problemlösen (COP-Kurs)
  • WS2019-20, Advance Enginnering Mathematics (AEM)
  • SS2020, Numerical Solution of Differential Equations (NSODE)
  • WS2020-21, Advance Enginnering Mathematics (AEM)
  • SS2021, Numerical Solution of Differential Equations (NSODE)
  • WS2021-22, Advance Enginnering Mathematics (AEM)
  • SS2022, Numerical Solution of Differential Equations (NSODE)
  • WS2022-23, Advance Enginnering Mathematics (AEM)

Forschungsinteressen

  • Finite Element Method
  • Multiphase Flow
  • Multiphysics Simulations
  • Non-Newtonian (Bingham) Fluids

Veröffentlichungen

Autoren Titel / Veranstaltung / Jahr 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]

Proceedings
Afaq, A.; Turek, S.; Ouazzi, A.; Fatima, A. Monolithic Newton-multigrid solver for multiphase flow problems with surface tension, Book of Extended Abstracts of the 6th Eccomas Young Investigators Conference, -, doi.org/10.4995./YIC2021.2021.12390, 2021 [BibTeX]
Fatima, A.; Turek, S.; Ouazzi, A.; Afaq, A. An adaptive discrete Newton Method for regularization-free Bingham model, Book of Extended Abstracts of the 6th Eccomas Young Investigators Conference, -, doi.org/10.4995./YIC2021.2021.12389, 2021 [BibTeX]

Technical Reports
Fatima, A.; Afaq, A.; Turek, S.; Ouazzi, A. Robust adaptive discrete Newton method for regularization-free Bingham model, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 661, Fakultät für Mathematik, TU Dortmund, 661, 2023 [BibTeX] [PDF]
Afaq, A.; Fatima, A.; Turek, S.; Ouazzi, A. Robust Monolithic Multigrid FEM Solver for Three Field Formulation of Incompressible Flow Problems, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 659, Fakultät für Mathematik, TU Dortmund, 659, 2023 [BibTeX] [PDF]
Afaq, A.; Turek, S.; Ouazzi, A.; Fatima, A. Monolithic Newton-Multigrid Solver for Multiphase Flow Problems with Surface Tension, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 636, Fakultät für Mathematik, TU Dortmund, 636, 2021 [BibTeX] [PDF]
Fatima, A.; Turek, S.; Ouazzi, A.; Afaq, A. An Adaptive Discrete Newton Method for Regularization-Free Bingham Model, Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 635, Fakultät für Mathematik, TU Dortmund, 635, 2021 [BibTeX] [PDF]

Vorträge

Autoren Titel / Veranstaltung / Jahr Download
Fatima, A.; Turek, S.; Afaq, A. An Adaptive Discrete Newton Method for Regularization-Free Bingham Model in Yield Stress Fluids, Computational Methods in Applied Mathematics (CMAM 2022), Dezember 2022, TU Wien, August 29 - September 2, 2022 [BibTeX] [PDF]
Afaq, A.; Turek, S.; Fatima, A.; Ouazzi, A. Monolithic Newton-Multigrid Solver for Multiphase Flow Problems with Surface Tension, 9th International Conference on Computational Methods in Applied Mathematics (CMAM), Aug 2022, August 29 - September 2, 2022, TU Wien, Austria [BibTeX] [PDF]
Afaq, A.; Turek, S.; Fatima, A.; Ouazzi, A. Monolithic Newton-Multigrid Solver for Multiphase Flow Problems with Surface Tension, GAMM, 92nd Annual Meeting of the International Association of Applied Mathematics and Mechanics, Aug 2022, August 15-19 2022, Aachen, Germany. [BibTeX] [PDF]
Afaq, A.; Turek, S.; Ouazzi, A.; Fatima, A. Monolithic Newton-Multigrid Solver for Multiphase Flow Problems with Surface Tension, VI ECCOMAS Young Investigators Conference 2021, Juli 2021, July 7-9 2021, Valencia, Spain. [BibTeX] [PDF]
Fatima, A.; Turek, S.; Ouazzi, A.; Afaq, A. An Adaptive Discrete Newton Method for Regularization-Free Bingham Model, VI ECCOMAS Young Investigators Conference 2021, Juli 2021, July 7-9 2021, Valencia, Spain [BibTeX] [PDF]
Ouazzi, A.; Afaq, A.; Begum, N.; Damanik, H.; Fatima, A.; Turek, S. General quasi-Newtonian approach for modeling and simulating complex flows, 4th Indo-German Workshop on Advances in Materials, Reactions and Separation Processes, 2020, Berlin, 23. - 26.02.2020 [BibTeX] [PDF]
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]