Numerical analysis of accidental hydrogen releases from high pressure storage at low temperatures

•We model the release and vessel dynamics of cryogenic compressed hydrogen at 200 K.•The influence of the changed thermodynamic behavior at low temperatures is addressed.•A simplified engineering model is compared with CFD.•The uncertainty of the models are evaluated and an improvement is suggested.

Evaluations of the performance of simplified engineering and CFD models are important to improve risk assessment tools e.g. to predict accurately releases from various types of hydrogen storages. These tools have to predict releases from a wide range of storage pressures (up to 80 MPa) and temperatures (down to 20 K), e.g. cryogenic compressed gas storage covers pressures up to 35 MPa and temperatures between 33 K and 338 K. Accurate calculations of high pressure releases require real gas EOS. This paper compares a number of EOS to predict hydrogen properties typical in different storage types. The vessel dynamics are modeled using a simplified engineering and a CFD model to evaluate the performance of various EOS to predict vessel pressures, temperatures mass flow rates and jet flame lengths. It is shown that the chosen EOS and the chosen specific heat capacity correlation are important to model accurately hydrogen releases at low temperatures.