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Position paper on high fidelity simulations for coupled processes, multi-physics and chemistry in geological disposal of nuclear waste

Sergey V. Churakov, Francis Claret, Andrés Idiart, Diederik Jacques, Joan Govaerts, Olaf Kolditz, Nikolaos I. Prasianakis, Javier Samper

2024Environmental Earth Sciences18 citationsDOIOpen Access PDF

Abstract

Abstract This opinion paper describes the major coupled T(Thermal)-H(Hydro)-M(Mechanical)-C(Chemical) processes in geological repository systems and the frontier of related model development. Particular focus is made on the analysis of existing approaches and open research questions with respect to the further development of coupled codes and models for realistic multi-scale simulations of repository systems. These include the use of machine learning and artificial intelligence in acceleration of computer codes; sensitivity analysis, inverse modelling and optimisation; software engineering and collaborative platforms for model development.

Topics & Concepts

Radioactive wastePosition (finance)SoftwareEnvironmental engineering scienceComputer scienceBiogeosciencesSystems engineeringEngineeringEarth scienceGeologyWaste managementProgramming languageFinanceEconomicsCO2 Sequestration and Geologic InteractionsReservoir Engineering and Simulation MethodsGroundwater flow and contamination studies
Position paper on high fidelity simulations for coupled processes, multi-physics and chemistry in geological disposal of nuclear waste | Litcius