A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Fire protection and explosion prevention for hydrogen safety technology
This paper describes main results obtained within the scope of joint project activities concerning the numerical simulation of reacting flow in complex geometries. The aim is the refinement of numerical methods for applied computational fluid dynamics (CFO) using high-performance computing (HPC) to study explosion processes in more detail, especially for hydrogen safety in technical systems. The R&D work is mainly focused on the modelling of the accident-related behaviour of hydrogen in safety enclosures ranging from slow to fast or even rapid flames. Therefore, we have established a modern field code cluster with supercomputing and special modules for specific studies. This new methodology allows the assessment of adequate safety measures to control deflagration-to-detonation transition (DDT) processes and to suppress fires or explosions for industrial safety.
Fire protection and explosion prevention for hydrogen safety technology
This paper describes main results obtained within the scope of joint project activities concerning the numerical simulation of reacting flow in complex geometries. The aim is the refinement of numerical methods for applied computational fluid dynamics (CFO) using high-performance computing (HPC) to study explosion processes in more detail, especially for hydrogen safety in technical systems. The R&D work is mainly focused on the modelling of the accident-related behaviour of hydrogen in safety enclosures ranging from slow to fast or even rapid flames. Therefore, we have established a modern field code cluster with supercomputing and special modules for specific studies. This new methodology allows the assessment of adequate safety measures to control deflagration-to-detonation transition (DDT) processes and to suppress fires or explosions for industrial safety.
Fire protection and explosion prevention for hydrogen safety technology
Feuerschutz und Explosionsvorbeugung in der Sicherheitstechnologie von Wasserstoffwirtschaft
Rehm, W. (author) / Wang, B.L. (author)
2003
6 Seiten, 3 Bilder, 7 Quellen
Conference paper
English
Detonation , Elektrolyse , Explosion , Explosionsschutz , Feuerschutz , Flammausbreitung , Flamme , Forschung und Entwicklung , Gerätesicherheit , Hochleistungs-PC-Kopplung , Hochleistungsrechner , kompressible Strömung , mathematisches Modell , Navier-Stokes-Gleichung , numerische Strömungssimulation , partielle Differenzialgleichung , Reaktionskinetik , Sicherheitstechnik , turbulente Strömung , Wasserstoffbrennstoffzelle , Wasserstoffproduktion , Wasserstoffwirtschaft
Industrial safety and explosion prevention
British Library Online Contents | 2007
Fire prevention and fire protection
Engineering Index Backfile | 1916
Fire and explosion protection : a system approach
| TIBKAT | 1989
Fire Protection in Tunnels: Damage Prevention and Technology
British Library Online Contents | 2006
Fire Safety Protection and Prevention Measures in Nigeria Office Buildings
| BASE | 2020