Dr. rer. nat. Johannes Schwenkel

Johannes Schwenkel and Björn Maronga (2018): Investigating the Development of Fog Droplet Size Distributions and Aerosol Activation in Radiation Fogs Simulated By a Lagrangian Cloud Model ,  15 th AMS Conference on Cloud Physics, Vancouver, Canada, poster presentation

Maronga, B., J. Schwenkel, and F. C. Bosveld (2018): Key Parameters for the Life Cycle of Nocturnal Radiation Fog: Results from a Comprehensive Large-Eddy Simulation Study,  23rd Symposium on Boundary Layers and Turbulence/21st Conference on Air-Sea Interaction, 11-15 June 2018 Oklahoma City, USA

Schwenkel, J., F. Hoffmann, and S. Raasch (2018): Improving collisional growth in Lagrangian cloud models: development and verification of a new splitting algorithm,  Geosci. Model Dev.,11, 3929-3944
DOI: 10.5194/gmd-11-3929-2018

Sonja Veith and Johannes Schwenkel (2019): Climate Future Day 2020 at Leibniz Universität Hannover: concept and framework,  EMS Annual Meeting 2019, 9-13 September 2019 DTU Lyngby, Denmark, oral presentation.

Johannes Schwenkel and Björn Maronga (2019): Demystifying fog microphysics: A high-resolution Large-Eddy Simulation study with coupled particle based microphysics,  EMS Annual Meeting 2019, 9-13 September 2019 DTU Lyngby, Denmark, oral presentation.

Schwenkel, J. and B. Maronga (2019): Large-eddy simulation of radiation fog with comprehensive two-moment bulk microphysics: Impact of different aerosol activation and condensation parameterizations,  Atmos. Chem. Phys., 19, 7165-7181
DOI: 10.5194/acp-19-7165-2019

Johannes Schwenkel (2019): Wolken – und ihre Mikrophysik: Ein Versuch der Entmystifizierung durch numerische Modelle ,  Stumeta, Hannover, 29.5.-2.06.2019, oral presentation.

Johannes Schwenkel and Björn Maronga (2019): Demystifying fog microphysics: A high-resolution Large-Eddy Simulation study with coupled particle based microphysics,  Workshop on Eulerian vs. Lagrangian methods for cloud microphysics, 15-17 april 2019, Cracow, Poland, poster presentation.

Johannes Schwenkel and Björn Maronga (2019): Untersuchungen von Aerosolaktivierung in Strahlungsnebel mit einem Lagrangschen Wolkenphysik Modell,  DACH 2019, 18-22 March 2019 Garmisch-Partenkirchen, oral presentation.

Schwenkel, J. and B. Maronga (2020): Towards a better representation of fog microphysics in large-eddy simulations based on an embedded Lagrangian cloud model,  Atmosphere, 11 (5), 466
DOI: 10.3390/atmos11050466

Kral, S. T., G. H. Urbancic, B. Greene, K. Flacké Haualand, L. Båserud, P. B. Chilson, A. A. M. Holtslag, M. O. Jonassen, R. Kouznetsov, Torge Lorenz, B. Maronga, S. Mayer, E. A. Pillar-Little, A. Rautenberg, J. Schwenkel, A. Seidl, G.-J. Steeneveld, I. Suomi, T. Vihma, B. Wrenger, and J. Reuder (2020): Innovative Strategies for Observations in the Arctic Atmospheric Boundary Layer Project (ISOBAR) — Unique fine-scale observations under stable and very stable conditions,  Bull. Am. Meteor. Soc., 102(2), E218–E243
DOI: 10.1175/BAMS-D-19-0212.1

Maronga, B., S. Banzhaf, C. Burmeister, T. Esch, R. Forkel, D. Fröhlich, V. Fuka, K.F. Gehrke, J. Geletič, S. Giersch, T. Gronemeier, G. Groß, W. Heldens, A. Hellsten, F. Hoffmann, A. Inagaki, E. Kadasch, F. Kanani-Sühring, K. Ketelsen, B. A. Khan, C. Knigge, H. Knoop, P. Krč, M. Kurppa , H. Maamari, A. Matzarakis, M. Mauder, M. Pallasch, D. Pavlik, J. Pfafferott, J. Resler, S. Rissmann, E. Russo, M. Salim, M. Schrempf, J. Schwenkel, G. Seckmeyer, S. Schubert, M. Sühring, R. von Tils, L. Vollmer, S. Ward, B. Witha, H. Wurps, J. Zeidler, and S. Raasch (2020): Overview of the PALM model system 6.0,  Geosci. Model Dev., 13, 1335-1372
DOI: 10.5194/gmd-13-1335-2020

Boutle, I., Angevine, W., Bao, J.-W., Bergot, T., Bhattacharya, R., Bott, A., Ducongé, L., Forbes, R., Goecke, T., Grell, E., Hill, A., Igel, A., Kudzotsa, I., Lac, C., Maronga, B., Romakkaniemi, S., Schmidli, J., Schwenkel, J., Steeneveld, G.-J., Vié, B. (2021): Demistify: an LES and SCM intercomparison of radiation fog,  Atmos. Chem. Phys., accepted

Schwenkel, J. and B. Maronga (2022): On the effect of nocturnal radiation fog on the development of the daytime convective boundary layer: A large-eddy simulation study,  Quart. J. Roy. Met. Soc., in press