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Institut für Wasser- und Umweltsystemmodellierung - IWS

Publikationen von Jennifer Niessner

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2014:

  1. Feuring, T., Braun, J., Linders, B., Bisch, G., Hassanizadeh, S.M. und J. Niessner:
    Horizontal Redistribution of Two Fluid Phases in a Porous Medium: Experimental Investigations.
    Transport in Porous Media 105 (2014) 503-515. (Kurzfassung)

2012:

  1. Feuring, T., Linders, B., Braun, J., Bisch, G., Niessner, J. und S.M. Hassanizadeh:
    Horizontal Redistribution of Two Fluid Phases in a Porous Medium - Experimental Investigations.
    NUPUS Joint Meeting (11. - 15. März 2012, Freudenstadt). 2012. Poster Session.

2008:

  1. Geiger, S., Matthäi, S., Niessner, J. und R. Helmig:
    Black-oil simulations for three-component - three-phase flow in fractured porous media.
    SPE Journal (2008). accepted

  2. Niessner, J. und S.M. Hassanizadeh:
    A model for two-phase flow in porous media including fluid-fluid interfacial area.
    Water Resources Research 44,W08439 (2008). doi:10.1029/2007WR006721

  3. Niessner, J. und S.M. Hassanizadeh:
    Modeling kinetic interphase mass transfer for two-phase flow in porous media including fluid - fluid interfacial area.
    Transport in Porous Media (2008). submitted

  4. Niessner, J. und S.M. Hassanizadeh:
    Modeling of two-phase flow in porous media including fluid-fluid interfacial area.
    NUPUS report, 2008/5. Institut für Wasserbau, Lehrstuhl für Hydromechanik und Hydrosystemmodellierung, Universität Stuttgart, 2008.

  5. Niessner, J. und S.M. Hassanizadeh:
    Two-Phase Flow Modeling in Porous Media Including Fluid-Fluid Interfacial Areas.
    NUPUS report, 2008/8. 2008.

  6. Niessner, J. und S.M. Hassanizadeh:
    Modeling kinetic interphase mass transfer for twophase flow in porous media including fluid-fluid interfacial area.
    NUPUS report, 2008/4. Institut für Wasserbau, Lehrstuhl für Hydromechanik und Hydrosystemmodellierung, 2008.

  7. Pop, I.S., van Duijn, C.J., Niessner, J. und S.M. Hassanizadeh:
    Philip's redistribution problem revisited: the role of fluid-fluid interfacial areas.
    Advances in Water Resources (2008). submitted

  8. van Duijn, C.J., Pop, I.S., Niessner, J. und S.M. Hassanizadeh:
    Philip's redistribution problem revisited: the role of fluid-fluid interfacial areas.
    NUPUS report, 2008/3. Institut für Wasserbau, Lehrstuhl für Hydromechanik und Hydrosystemmodellierung, Universität Stuttgart, 2008.

2007:

  1. Flemisch, B., Fritz, J., Helmig, R., Niessner, J. und B.I. Wohlmuth:
    DUMUX: a multi-scale multi-physics toolbox for flow and transport processes in porous media.
    In: Ibrahimbegovic, A. and Dias, F. (eds.): ECCOMAS Thematic Conference on Multi-scale Computational Methods for Solids and Fluids (28. - 30. November 2007, Paris, France). 2007, 82-87. (Kurzfassung)

  2. Niessner, J. und R. Helmig:
    Multi-scale modeling of three-phase--three-component processes in heterogeneous porous media.
    Advances in Water Resources 11,30 (2007) 2309-2325.

2006:

  1. Helmig, R., Class, H., Ölmann, U. und J. Niessner:
    Multiphase Processes in Porous Media.
    In: Helmig, Rainer; Mielke, Alexander; Wohlmuth, Barbara I. (eds.): Multifield Problems in Solid and Fluid Mechanics. 28. Springer-Verlag, 9/2006, 45-82. SFB-Bericht.

  2. Helmig, R., Miller, C.T., Jakobs, H., Class, H., Hilpert, M., Kees, C.E. und J. Niessner:
    Multiphase Flow and Transport Modeling in Heterogeneous Porous Media.
    Progress in Industrial Mathematics at ECMI 2004 (21. - 25. Juni 2004, Eindhoven University of Technology). Springer-Verlag, 2006. Plenary lecture.

  3. Helmig, R., Niessner, J. und H. Class:
    Recent advances in finite element methods for multi-phase flow processes in porous media.
    International Journal of Computational Fluid Dynamics 20,3-4 (2006) 245-252.

  4. Niessner, J.:
    Multi-Scale Modeling of Multi-Phase - Multi-Component Processes in Heterogeneous Porous Media.
    Mitteilungsheft Nr. 151, (Promotionsschrift) Institut für Wasserbau, Universität Stuttgart, 2006. ISBN: 3-933761-54-9

  5. Niessner, J. und R. Helmig:
    Multi-scale modeling of two-phase - two-component processes in heterogeneous porous media.
    2006/02. 2006. SFB preprint

  6. Niessner, J. und R. Helmig:
    Multi-scale modeling of two-phase - two-component processes in heterogeneous porous media.
    Numerical Linear Algebra with Applications 13,9 (2006) 699-715.

  7. Niessner, J. und R. Helmig:
    Multi-scale modeling of two-phase-two-component processes in heterogeneous porous media .
    16. International Conference on Computational Methods in Water Resources (18. - 22. Juni 2006, Copenhagen, Denmark). 2006.

2005:

  1. Assteerawatt, A., Bastian, P., Bielinski, A., Breiting, T., Class, H., Ebigbo, A., Eichel, H., Freiboth, S., Helmig, R., Kopp, A., Niessner, J., Ochs, S.O., Papafotiou, A., Paul, M., Sheta, H., Werner, D. und U. Ölmann:
    MUFTE-UG: Structure, Applications and Numerical Methods.
    Newsletter, International Groundwater Modeling Centre, Colorado School of Mine, 10/2005. Volume XXIII ISSUE 2

  2. Niessner, J., Helmig, R., Jakobs, H. und J. Roberts:
    Interface Condition and Linearization Schemes in the Newton Iterations for Two-Phase Flow in Heterogeneous Porous Media.
    Advances in Water Resources 28,7 (2005) 671-687.

2004:

  1. Niessner, J., Helmig, R., Jakobs, H. und J. Roberts:
    Interface condition and exact linearization in the Newton iterations for two-phase flow in heterogeneous porous media.
    In: Miller, C.T., Farthing, W.F., Gray, W.G. & G.F. Pinder (eds.): 15. International Conference on Computational Methods in Water Resources (13. - 17. Juni 2004, Chapel Hill, North Carolina, USA). 1. Elsevier Science Publishers B.V., 2004, 597-608.

  2. Reichenberger, V., Jakobs, H., Bastian, P., Helmig, R. und J. Niessner:
    Complex Gas-Water Processes in Discrete Fracture-Matrix Systems. Upscaling, Mass-Conservative Discretization and Efficient Multilevel Solution and Efficient Multilevel Solution.
    Mitteilungsheft Nr. 130, Institut für Wasserbau, Universität Stuttgart, 2004.

2003:

  1. Niessner, J.:
    Influence of the Interface Condition and Exact Linearization in the Newton Iterations for Two-Phase Flow in Heterogeneous Porous Media.
    Diplomarbeit, Institut für Wasserbau, Lehrstuhl für Hydromechanik und Hydrosystemmodellierung, Universität Stuttgart, Zusammenarbeit mit Institut National de Recherche en Informatique et en Automatique (INRIA). Rocquencourt - Paris, France. 7/2003.

  2. Niessner, J., Roberts, J. und R. Helmig:
    Influence of an Interface Condition and Exact Linearization in the Newton Iterations for Two-Phase Flow in Heterogeneous Porous Media.
    Wissenschaftlicher Bericht, RR-4903. Institut National de Recherche en Informatique et en Automatique (INRIA), Rocquencourt - Paris, France, 2003.