The system has already been used independently of the Restart 2.0 project in facilities such as the Philharmonie Berlin, in various vehicles of the Berlin public transport company and in conference rooms. Using the results obtained, it is planned to develop an evaluation system with which the indoor air technology of event venues can be effectively classified with regard to the risk of infection with e.g. It was developed in cooperation between the Hermann-Föttinger-Institute of the Technische Universität Berlin and the Biofluid Mechanics Laboratory of the Charité - Universitätsmedizin Berlin and is part of the project Restart 2.0 in which various venues will be investigated. The Aerosol Transmission Measurement System allows to determine the aerosol dispersion under real room conditions and to draw a conclusion about the transmitted aerosol amounts between dummies at certain arbitrary positions. The spread via room or ambient air leads to great uncertainty among the population. ![]() Project description: Transmission of SARS-CoV-2 occurs largely via virus-laden droplets in aerosols released into the ambient air by, for example, coughing, sneezing, or talking. In this trainer, different hearts and heart models should be able to be used, as well as the option to extend a vascular model. The focus of the ICM Biofluid Mechanics Laboratory in this project is the concept development and construction of a multifunctional in vitro experimental stand for the physiological simulation of cardiac motion. While this is normally achieved through animal testing, the tools/methods should allow for visualization and testing simply by incorporating animal or human hearts. ![]() The virtual and physical development methods must be intertwined to enable the plausibility and continuous validation required in medical technology. Thus, a reduction in development time as well as development costs should be made possible through early virtual and real testing of concepts. ![]() Project description: The aim of the project is to create virtual and physical development tools that enable research and development work on medical heart implants to be tested on a realistic model before being tested in animal experiments.
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