Analysis, Modeling, Simulation, Opimization and Design.
Our Offers
Mathematical Modeling
Expertise in numerical solutions of coupled partial differential equations (PDEs) in technical design and analysis of complex physical systems.
Fluid Flow Simulation (CFD) and Visualization
We simulate flows in air, gases and liquids for spaces with high demands in terms of cleanliness, temperature and humidity.
Planning and Optimization in the Areas Energy, Water and Cooling
We take into account dependencies from geo-coordinates of the position of a construction site.
Industries
Our solutions are used in different areas, such as chip and battery production and the pharmacy industry as well.
We serve for the layout of special rooms with high demands, e.g. museums, laboratory and research buildings.
We are in the position to consider high demands in terms of cleanliness, temperature, humidity and guided flows.
Technologies
We trust in modern computer algebra systems (Mathematica) to perform modeling, simulation and optimization.
This allows for very fast prototyping.
About us
Datenflug is a multi- and interdisciplinary team of physicists, mathematicians, architects and software developer based in the greater Berlin area / Germany.
The founders are:
Dipl.-Ing. Rolf Kretschmer:
Expert in architecture and engineering with
a focus on sustainable design and energy-efficient systems.
Prof. Dr. Frank Brand:
Renowned professor with extensive experience in technical optimization and sustainable engineering solutions.
Contact
Datenflug GmbH
Zionskirchstraße 1
10119 Berlin
Germany
Mail: info@datenflug.de
Phone: +49 173 3053257
A selection of our work
Visualization of air circulation from top to bottom connected with velocities and pressures at different points.
Stream plot around inner obstacles in a volume with flow from left to right via tubes.
Surfaces of equal barometric pressure (isobar) in a volume with inner obstacles / air inlet left, air outlet right via tubes.
Surfaces of equal barometric pressure (isobar) in a volume with inner obstacles / air inlet via both left and top faces of given cube, outlet via both right and bottom faces.
Visualization of air circulation around inner obstacles in different layers in z-direction.
Visualization of air circulation around inner obstacles in different layers in x-, y- and z-direction.
Visualization of air circulation around inner obstacles additionally showing the velocities at different points