Dieses Bild zeigt Andrea Thom

Andrea Thom

Frau Dr.-Ing.

Wissenschaftlerin
[Foto: Max Kovalenko]

Kontakt

Visitenkarte (VCF)

  1. 2019

    1. Thom, Andrea ; Ricken, Tim: Towards a physical model of Antarctic sea ice microstructure including biogeochemical processes using the extended Theory of Porous Media. In: PAMM -- Proc. Appl. Math. Mech. Bd. 19, Wiley Online Library (2019), S. e201900285
    2. Thom, A ; Ricken, T: Development of a thermodynamically consistent model towards biogeochemical processes within Antarctic sea ice microstructure within the extended Theory of Porous Media (eTPM). In: Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications: Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019), September 2-4, 2019, Cape Town, South Africa : CRC Press, 2019, S. 292

  2. 2018

    1. Thom, Andrea ; Ricken, Tim ; Koßler, Marvin ; Gehrke, Tobias ; Denecke, Martin ; Widmann, Renatus ; Schulte, Marcel ; Schmidt, Thorsten C: Numerical investigations of diffusion coefficients in the context of multi-component gas transport within the Theory of Porous Media. In: PAMM Bd. 18, Wiley Online Library (2018), S. e201800446

  3. 2017

    1. Henning, Carla ; Thom, Andrea ; Hettler, Achim: Numerical Investigations of the Effects of Dynamic Construction Processes on Deep Excavation Walls. In: Holistic Simulation of Geotechnical Installation Processes : Springer, 2017, S. 297–302
    2. Schulte, Marcel ; Jochmann, Maik A ; Gehrke, Tobias ; Thom, Andrea ; Ricken, Tim ; Denecke, Martin ; Schmidt, Torsten C: Characterization of methane oxidation in a simulated landfill cover system by comparing molecular and stable isotope mass balances. In: Waste management Bd. 69, Elsevier (2017), S. 281–288

  4. 2016

    1. Thom, Andrea ; Hettler, Achim: Prediction of construction-induced deformations of deep excavation walls by the use of a holistic 3D-finite-element model. In: Holistic Simulation of Geotechnical Installation Processes : Springer, 2016, S. 231–239

  5. 2015

    1. Thom, Andrea ; Ricken, Tim ; Bluhm, Joachim ; Widmann, Renatus ; Denecke, Martin ; Gehrke, Tobias: Validation of a coupled FE-model for the simulation of methane oxidation via thermal imaging. In: PAMM Bd. 15, Wiley Online Library (2015), S. 433–434

  6. 2014

    1. Sindern, Andrea ; Ricken, Tim ; Bluhm, Joachim ; Widmann, Renatus ; Denecke, Martin ; Gehrke, Tobias: A coupled multi-component approach for bacterial methane oxidation in landfill cover layers. In: PAMM Bd. 14, Wiley Online Library (2014), S. 469–470
    2. Ricken, Tim ; Sindern, Andrea ; Bluhm, Joachim ; Widmann, Renatus ; Denecke, Martin ; Gehrke, Tobias ; Schmidt, Torsten C: Concentration driven phase transitions in multiphase porous media with application to methane oxidation in landfill cover layers. In: ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik Bd. 94, Wiley Online Library (2014), S. 609–622

  7. 2013

    1. Sindern, Andrea ; Ricken, Tim ; Bluhm, Joachim ; Widmann, Renatus ; Denecke, Martin: Bacterial methane oxidation in landfill cover layers-a coupled FE multiphase description. In: PAMM Bd. 13, Wiley Online Library (2013), S. 193–194

  8. 2012

    1. Sindern, Andrea ; Ricken, Tim ; Bluhm, Joachim ; Denecke, Martin ; Schmidt, Torsten C: Phase transition in methane oxidation layers--a coupled FE multiphase description. In: PAMM Bd. 12, Wiley Online Library (2012), S. 371–372
Mehrphasen- und Mehrskalenmaterialien (SS19)
Simulation gekoppelter Probleme (WS19/20, SS22)

Nichtlineare Finite Elemente (SS20, WS21/22, WS22/23)
Einführung in die Finite-
Elemente-Methode (WS20/21)

 
Seminar Angewandte Finite Elemente (SS21)

Umweltmechanik

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