Campus Nord, Gebäude 435, Semianrraum 2.05
Rainer Hollmann, Martin Stengel, Eva Pauli, Hendrik Andersen, Jan Cermak, Deutscher Wetterdienst (DWD) KIT/IMKASF
This presentation highlights the collaborative efforts between the German Meteorological Service (DWD) and the Karlsruhe Institute of Technology (KIT) in the field of satellite-based cloud research. We begin with a brief overview of the generation and utilization of satellite products at DWD (specifically within the satellite based climate monitoring (KU43) unit) and KIT, showcasing recent advancements and key developments at both institutions.
A particular focus is on the satellite-based analysis of fog and low clouds. KIT has developed innovative methods for detecting and characterizing these phenomena over Europe and Namibia, which are currently being implemented by DWD within the operational CLAAS-4 satellite data processing framework. The presentation concludes with insights gained from these products, shedding light on fog dynamics and their implications for weather forecasting and climate monitoring.
KIT Campus Nord, IMKAAF
Gebäude 326, Raum 150
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Andreas Schmitt, KIT, IMKAAF
Übersicht der Masterarbeit
CS, Gebäude 30.22, Otto-Lehmann-Hörsaal
Prof. Dr. Stefanie Fiedler, Universitaet Heidelberg, Institut fuer Umweltphysik
CS, Gebäude 30.23, 13. OG, Seminarraum 13-02
(1) Alexander Jong (2) Evgenii Churiulin (3) tbd (4) tbd
(1) tbd (2) EvaSuite as evaluation tool for analysis of climate data (3) tbd (4) tbd
CS, Gebäude 30.23, 13. OG, Seminarraum 13-02
(1) Jan Handwerker (2) Elias Hühn (3) Eleonora Cusinato (4) Yukun Yang
(1) tbd (2) tbd (3) From Global Climate Models to Regional Climate Models: Consistency Assessment of the Hydrological Cycle (4) tbd
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) TBD (2) Srah Paratoni (3) Kevin Gramlich (4) tbd
(1) Sensitivity of weather forecasts in tropical Africa to available observations – an idealized study using the TEEMLEAP testbed (2) Doppler Lidar Volume Flux Observations in a Broad Alpine Valley (3) Singular Vectors in data-driven NWP models (4) tbd
KIT Campus Nord, IMKAAF
Gebäude 435, Raum 205
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Dr. Stefan Kneifel, Ludwig-Maximilians-Universitaet Muenchen, Meteorologisches Institut, Experimentelle Meteorologie
In mid-latitudes, almost every raindrop that reaches the surface, starts as an ice particle in the cloud aloft. Ice microphysical processes are thus key for realistically forecasting the evolution of clouds and precipitation. Besides in-situ observations and laboratory experiments, remote sensing methods, such as modern cloud radars, provide a wealth of information about processes, such as aggregation, riming, and secondary ice production. This talk will provide a compact overview of the measurement principles and application examples of how we can use cloud radars in combination with modern modelling tools to improve our understanding of ice microphysical processes in clouds.
