About 瀚陞 王
I am an engineer and independent researcher affiliated with the Taiwan Power Company, specializing in the intersection of mechanical engineering, applied mathematics, and geosciences. My research interests focus on reactive transport modeling, numerical simulation, and geochemical evolution within deep geological environments, particularly applied to nuclear waste isolation and carbon capture and storage (CCS). With a solid background in mathematics engineering, I aim to bridge theoretical frameworks with practical energy transition challenges.
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The safe long-term isolation of high-level nuclear waste remains a critical challenge for nuclear energy systems. Geological repositories rely on multiple engineered and natural barriers to prevent radionuclide migration over geological timescales. In most repository safety assessments, carbon dioxide (CO₂) is typically regarded as a potential geochemical disturbance that may influence corrosion processes or alter groundwater chemistry.
This study presents a conceptual framework that reinterprets CO₂ as a potential geochemical driver capable of enhancing fracture sealing through carbonate mineral precipitation. Drawing on knowledge from geological carbon sequestration research, the framework suggests that CO₂-induced mineralization may gradually reduce fracture permeability in suitable host rocks.
By bridging research fields between nuclear waste management and carbon capture science, this study introduces a novel interdisciplinary perspective and highlights potential pathways for future modeling and experimental investigation.