Saline Brine Reaction with Fractured Wellbore Cement and Changes in Hardness and Hydraulic Properties

Addressing society's water and energy challenges requires sustainable use of Earth's critical zones and subsurface environment, as well as appropriate design and application of porous materials for resilient infrastructure and membranes for water treatment/recovery. Reactive transport models (RTMs) provide a powerful tool for environmental engineering and science professionals to investigate the complex interplay between biogeochemical reactions, flow, transport, and heat exchange, which control the dynamic behaviors of these systems. RTMs are, thus, able to inform engineering design and policy making for sustainable use of Earth's critical zones and subsurface environment. This special issue on ''Addressing Society's Water and Energy Challenges with Reactive Transport Modeling'' provides a few examples that illustrate the diverse application of RTMs in informing practices, including resource recovery, subsurface energy extraction, and carbon mitigation. In this article, we present a brief overview of the development of the research field of reactive transport modeling and its growing applications in environmental engineering and science in the past three decades. We also provide perspective on the frontiers of reactive transport modeling research and emergent application areas that are critical for addressing water and energy challenges our society faces. Example application areas include groundwater quality management, mine waste pollution management, safe nuclear waste disposal, reliable geological carbon storage, climate-water interactions, materials for resilient infrastructure, recovery and valorization of critical materials, groundwater resource management for drought mitigation, negative carbon emissions, and subsurface renewable energy.

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Saline Brine Reaction with Fractured Wellbore Cement and Changes in Hardness and Hydraulic Properties

Cited by 4 publications

References 53 publications

Stability analysis of a granite-based geopolymer sealant for CO2 geosequestration: In-situ permeability and mechanical behavior while exposed to brine

Stability analysis of a granite-based geopolymer sealant for CO2 geosequestration: In-situ permeability and mechanical behavior while exposed to brine

Failure mechanism of carbon dioxide transport infrastructure: A comprehensive review

Addressing Water and Energy Challenges with Reactive Transport Modeling

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