safeND2025-169, updated on 11 Jul 2025
https://doi.org/10.5194/safend2025-169
Third interdisciplinary research symposium on the safety of nuclear disposal practices
© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.
THEREDA - Thermodynamic Reference Database
Laurin Wissmeier1, Helge Moog2, Holger Seher2, Andrea Kozlowski2, Sven Hagemann2, Vinzenz Brendler3, Frank Bok3, Anke Richter3, Xavier Gaona4, Marcus Altmaier4, Christian Kiefer4, Christian Marquardt4, Daniela Freyer5, Julia Sohr5, Melanie Pannach5, and Wolfgang Voigt5
Laurin Wissmeier et al.
  • 1CSD Ingenieure, Aarau, Switzerland (aarau@csd.ch)
  • 2Gesellschaft für Reaktorsicherheit (GRS), Bereich Endlagerung, Braunschweig, Germany (info@grs.de)
  • 3Institut für Ressourcenökologie, Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany (contact.resourceecology@hzdr.de)
  • 4Institut für Nukleare Entsorgung (INE), Karlsruher Institut für Technologie (KIT), Karlsruhe, Germany (marcus.altmaier@kit.edu)
  • 5Arbeitsgruppe Salz- und Mineralchemie, TU Bergakademie Freiberg (TUBAF), Freiberg, Germany (daniela.freyer@chemie.tu-freiberg.de)

Abstract. Part of the process to ensure the safety of radioactive waste disposal is the predictive modeling of the solubility of all relevant toxic components in a complex aqueous solution. To ensure the reliability of thermodynamic equilibrium modeling as well as to facilitate the comparison of such calculations done by different institutions it is necessary to create a mutually accepted thermodynamic reference database. To meet this demand several institutions in Germany joined efforts and created THEREDA (Moog et al., 2015).

THEREDA is a suite of programs at the base of which resides a relational databank. Special emphasis is put on thermodynamic data along with suitable Pitzer coefficients which allow for the calculation of solubilities in high-saline solutions. Registered users may either download single thermodynamic data or ready-to-use parameter files for the geochemical speciation codes PHREEQC and Geochemist’s Workbench. Data can also be downloaded in a generic JSON-format to allow for the import into other codes. The database can be accessed via the world wide web: www.thereda.de

Prior to release, the released part of the database is subjected to many tests. Results are compared to results from earlier releases and among the different codes. This is to ensure that by additions of new and modification of existing data no adverse side effects on calculations are caused. Furthermore, our website offers an increasing number of examples for applications, including graphical representation, which can be filtered by components of the calculated system.

References

Moog, H. C., Bok, F., Marquardt, C. M., and Brendler, V.: Disposal of Nuclear Waste in Host Rock formations featuring high-saline solutions - Implementation of a Thermodynamic Reference Database (THEREDA). Appl. Geochem., 55, 72-84, doi: 10.1016/j.apgeochem.2014.12.016, 2015.

How to cite: Wissmeier, L., Moog, H., Seher, H., Kozlowski, A., Hagemann, S., Brendler, V., Bok, F., Richter, A., Gaona, X., Altmaier, M., Kiefer, C., Marquardt, C., Freyer, D., Sohr, J., Pannach, M., and Voigt, W.: THEREDA - Thermodynamic Reference Database, Third interdisciplinary research symposium on the safety of nuclear disposal practices, Berlin, Germany, 17–19 Sep 2025, safeND2025-169, https://doi.org/10.5194/safend2025-169, 2025.