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Dissertation 2018: Coupled Free and Porous-Medium Flow Processes Affected by Turbulence and Roughness – Models, Concepts and Analysis
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dumux-pub / Koch2017a
GNU General Public License v2.0 or laterdumux-root module with apps from: T. Koch, K. Heck, N. Schröder, H. Class, R. Helmig: A new simulation framework for plant-scale soil-root interaction including soil evaporation, growth and transport processes using Dumux (doi: 10.2136/vzj2017.12)
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D. Gläser, R. Helmig, B. Flemisch, and H. Class
A discrete fracture model for two-phase flow in fractured porous media
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E. Coltman, MSc Thesis, 2017: Numerical investigation of turbulent flow around obstacles and evaporating porous media
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T. Kurz, MSc thesis, 2018: Investigation of different coupling schemes for hybrid-dimensional models
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Becker, B., Guo, B., Bandilla, K., Celia, M. A., Flemisch, B., & Helmig, R. (2018). An adaptive multiphysics model coupling vertical equilibrium and full multidimensions for multiphase flow in porous media. Water Resources Research, 54, 4347– 4360.
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A. Al Assadi, MSc thesis, 2018: Numerical simulations of underground carbon dioxide storage with hydrogen impurities.
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