Chen Huang
Forskare
Deeply committed to contributing to a better world for our future generations by initiating and participating in economically viable projects focused on long-term sustainability.
With a solid background and extensive experience in simulations using numerical tools, particularly Computational Fluid Dynamics (CFD), encompassing areas such as chemical kinetics, combustion, multi-phase flow, turbulence, and more. Proficient in both commercial and open-source CFD codes, as well as commercial multi-physics codes and open-source data analysis tools like Python. Holds a PhD in thermal and fluid dynamics awarded in 2014 from Chalmers University of Technology.
Possesses a keen interest in combustible dust safety and occupational safety. Considerable experience in battery thermal propagation simulations. Additionally, has valuable experience collaborating with various sectors to support energy transition efforts, including solid biofuel processes, chemical, battery manufacturing and recycling, automotive, and marine industries.
Maintains an extensive network spanning industries and academia, both nationally and internationally. Skilled in securing funding from national and EU agencies and adept at initiating, planning, and leading larger projects.
- A Sensitivity Study of a Thermal Propagation Model in an Automotive Battery Mod…
- Development of a numerical tool using an open-source code for creating a safer …
- A vented corn starch dust explosion in an 11.5 m3 vessel : Experimental and num…
- Vented dust explosions: comparing experiments, simulations and standards
- BREND 2.0 - Fighting fires in new energy carriers on deck 2.0
- Safe and Suitable Firefighting
- Modelling thermal runaway initiation and propagation for batteries in dwellings…
- Development of a numerical tool using an open source code for creating a safer …
- Modelling of premixed turbulent combustion of cornflour dust-air cloud using Op…