This picture showsSimon Emmert

M.Sc.

Simon Emmert

Academic Staff
Institute for Modelling Hydraulic and Environmental Systems
Department of Hydromechanics and Modelling of Hydrosystems

Contact

+49 711 685-67015
+49 711 685-60430

Business card (VCF)

Pfaffenwaldring 61
70569 Stuttgart
Germany
Room: 1.010

Office Hours

By appointmlent only

Mehrphasenmodellierung in porösen Medien Lecture | Exercise
Multiphase Modeling in Porous Media Lecture

Abitur

May 2010 in Vaihingen/Enz (Germany)

Academic Degrees

2014: Bachelor of Science in Environmental Engineering, University of Stuttgart (Germany)
2017: Master of Science in Environmental Engineering, University of Stuttgart (Germany)
2020: Defense of Doctoral Thesis, University of Stuttgart (Germany)

Academic Career

2017-2020: Doctoral Researcher, Institute for Modelling Hydraulic and Environmental Systems, University of Stuttgart (Germany)
since 2021: Postdoctoral Researcher, Institute for Modelling Hydraulic and Environmental Systems, University of Stuttgart (Germany)

publications

  1. article

    1. Emmert, S., Davis, K., Gerlach, R., & Class, H. (2020). The Role of Retardation, Attachment and Detachment Processes during Microbial Coal-Bed Methane Production after Organic Amendment. Water, 12(11), Article 11. https://doi.org/10.3390/w12113008
    2. Emmert, S., Class, H., Davis, K. J., & Gerlach, R. (2020). Importance of specific substrate utilization by microbes in microbially enhanced coal-bed methane production: A modelling study. International Journal of Coal Geology, 229, 103567. https://doi.org/https://doi.org/10.1016/j.coal.2020.103567
    3. Koch, T., Gläser, D., Weishaupt, K., Ackermann, S., Beck, M., Becker, B., Burbulla, S., Class, H., Coltman, E., Emmert, S., Fetzer, T., Grüninger, C., Heck, K., Hommel, J., Kurz, T., Lipp, M., Mohammadi, F., Scherrer, S., Schneider, M., … Flemisch, B. (2020). DuMux 3 – an open-source simulator for solving flow and transport problems in porous media with a focus on model coupling. Computers & Mathematics with Applications. https://doi.org/10.1016/j.camwa.2020.02.012
    4. Koch, T., Gläser, D., Weishaupt, K., Ackermann, S., Beck, M., Becker, B., Burbulla, S., Class, H., Coltman, E., Fetzer, T., Flemisch, B., Grüninger, C., Heck, K., Hommel, J., Kurz, T., Lipp, M., Mohammadi, F., Schneider, M., Seitz, G., … Weinhardt, F. (2018). DuMuX 3.0.0. https://doi.org/10.5281/zenodo.2479595
  2. mastersthesis

    1. Scholz, S. (2017). Modeling microbially enhanced coal-bed methane production [Masterthesis].
    2. Scholz, S. (2014). Analytical Solution for Determining Brine Leakage Along a Salt Wall [Bachelorarbeit]. Universität Stuttgart, Institut für Wasserbau.

talks

  1. S. Emmert, K. Davis, R. Gerlach, and H. Class, “Calibrating and validating a numerical model concept for microbially enhanced coal bed methane production with batch and column data,” EGU General Assembly Conference Abstracts. p. 9011, May 2020, [Online]. Available: https://meetingorganizer.copernicus.org/EGU2020/EGU2020-9011.html.
  2. S. Scholz et al., “Modelling microbially enhanced coal-bed methane production: From a validated batch model to column scale,” InterPore 2019. May 2019, [Online]. Available: https://events.interpore.org/event/12/book-of-abstracts.pdf.
  3. S. Scholz et al., “Modelling microbially enhanced coal-bed methane production: From batch experiments to a numerical model,” Computational Methods in Water Resources (CMWR) XXII, 04.06.2018 - 07.06.2018, St. Malo, Frankreich. Jun. 2018.
  4. S. Scholz, R. Gerlach, A. B. Cunningham, H. Class, and R. Helmig, “Modelling Microbially Enhanced Coal-Bed Methane Production with DuMuX,” 2nd SRP NUPUS Meeting, 09.10.2017 - 11.10.2017, Mühlhausen im Täle. Oct. 2017.
  5. S. Scholz, H. Class, R. Helmig, R. Gerlach, and A. B. Cunningham, “Modelling Microbially Enhanced Coal-Bed Methane Production with DuMuX,” ENWAT Doctoral Seminar July 2017, 25.07.2017, Stuttgart. Jul. 2017.

supervised student assignements

  1. Sensitivitätsanalyse für ein Modell zur mikrobiell erhöhten Methanproduktion in Kohleflözen. (2019). (Bacherlorarbeit).
  2. Implementierung eines numerischen Modells für den Transport von Tracerkomponenten in Zweiphasenströmungen. (2019). (Studienarbeit). Universität Stuttgart, Institut für Wasser-und Umweltsystemmodellierung, Lehrstuhl für Hydromechanik und Hydrosystemmodellierung.
  3. Parameterization of element balance formulation in reactive compositional flow and transport. (2018). (Masterarbeit). Department of Geoscience & Engineering, Department of Geoscience & Engineering, TU Delft, TU Delft.
  4. Pumpversuche zur Bestimmung hydrogeologischer Parameter. (2018). (Bachelorarbeit). Universität Stuttgart, Institut für Wasser- und Umweltsystemmodellierung.
  5. Implementation of Adsorption Isotherms in the numerical simulator DuMuX. (2018). (Studienarbeit). Universität Stuttgart, Institut für Wasser- und Umweltsystemmodellierung.
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