Progress on computer-aided and experimental determination of thermophysical properties of gas mixtures containing hydrogen
Publication date
2024-12-20
Document type
Sammelbandbeitrag oder Buchkapitel
Author
Günz, Christian
Manzel, Mathis
Gaiser, Christof
Schulz, Sebastian
Pietsch, Arne
Zipfel, Joachim
Jaeger, Philip
Organisational unit
Book title
dtec.bw-Beiträge der Helmut-Schmidt-Universität / Universität der Bundeswehr Hamburg : Forschungsaktivitäten im Zentrum für Digitalisierungs- und Technologieforschung der Bundeswehr dtec.bw : Band 2 – 2024
First page
83
Last page
90
Peer-reviewed
✅
Part of the university bibliography
✅
Keyword
dtec.bw
Burnett method
Computer simulation
Hydrogen
Mixture
Virial coefficient
Vibrating-wire viscometer
Viscosity
Abstract
In the project H2MIXPROP, highly accurate data for several thermophysical properties of gaseous mixtures containing molecular hydrogen are obtained by state-of-the-art theoretical approaches and experimental methods. Such data are required for many technical applications in the transition of the energy supply system to renewable energy sources, in which hydrogen is expected to play a prominent role. This contribution describes theoretical results for cross second virial coefficients of several binary mixtures, the development and validation of a path integral Monte Carlo code for the simulation of quantum gases, and the current status of the experimental tasks.
Version
Published version
Access right on openHSU
Open access