Environmental technology, Room 19
Justus-von-Liebig-Weg 6
18059 Rostock

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Muhammad Asad Yamin is a qualified engineer and researcher with extensive expertise in computational mechanics, fluid dynamics, and numerical modeling. He holds two Master's degrees—one in Computational Sciences and Engineering from the University of Rostock and another in Computational Mechanics from the Technical University of Munich—establishing a strong foundation in mathematical modeling, numerical simulations, and software development.

His professional journey spans multiple roles as a research engineer, mechanical engineer, and software developer, where he has contributed to advanced simulation projects in OpenFOAM®, ANSYS™, and MATLAB™. As a Research Engineer at the University of Rostock’s Chair of Modeling and Simulation, he worked on the mathematical modeling of thermally functional footwear, focusing on smart clothing simulations to optimize thermal performance. His role also involved developing solvers using C++ and Python within OpenFOAM® and mentoring students in computational fluid dynamics (CFD) through lectures on Fluid Dynamics, Turbulence Modeling, and CFD in Ship Hydromechanics. During his tenure at Brose Fahrzeugteile GmbH & Co. KG, he specialized in 1D and geometric modeling of scroll compressors for automotive applications. Using SimulationX and the Modelica language, he analyzed force and pressure distributions, providing valuable insights into compressor performance optimization. In addition, Muhammad Asad Yamin has a solid background in CAD/CAE, high-performance computing, and software development. His diverse experience includes work on aircraft ditching simulations, high-voltage component testing for electric vehicles, and software interface development for thermal modeling applications.

Since January 2025, Muhammad Asad Yamin has been working on the collaborative project ASiMof as a simulation/research engineer at the chair of microfluidics, University of Rostock. His work is focused on the analysis and simulation of the anisotropic properties of fiber-reinforced adhesives.