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The presentation provides an overview of recent advancements in geophysical monitoring for CO₂ storage, focusing on seismic modeling and passive seismic data analysis in the SPARSE project....

The presentation discusses low-cost monitoring strategies for CO₂ storage, comparing the costs of SPARSE monitoring with conventional methods. It highlights that monitoring costs vary widely, from tens of thousands to millions of dollars, depending on factors such as project size, geological setting...

The SPARSE Second Workshop presentation covers advancements in geophysical monitoring for CO₂ storage, focusing on active and passive data exploitation. It discusses seismic, electromagnetic, and teleseismic monitoring techniques, with an emphasis on detecting small amounts of CO₂ and quantifying...

The EAGE Field Trip presentation showcases the Svelvik CO₂ Field Lab as a testing site for CO₂ storage monitoring technologies, focusing on seismic, fiber optic, and groundwater measurement methods. The lab enables controlled and repeatable experiments on CO₂ injection, with advanced instrumentation...

The Svelvik CO₂ Field Lab serves as a testing site for innovative CO₂ monitoring technologies, enabling controlled and repeatable experiments on pressure and saturation changes during CO₂ injection. It features well instrumentation, fiber optics, seismic monitoring, and groundwater measurement...

This presentation discusses the ACT4 SPARSE project, which aims to develop low-cost, long-term geophysical monitoring for gigatonne-scale CO₂ storage. The approach utilizes sparse, strategically placed nodes that integrate seismic, electromagnetic, gravity, and surface deformation data to ensure...

This presentation** focuses on the SPARSE project, which aims to develop low-cost, long-term geophysical monitoring for CO₂ storage using passive and active seismic, electromagnetic, gravity, and surface deformation data. The project explores sparse node-based monitoring to ensure containment and...

The CO₂ Storage Workshop presentation highlights the SPARSE project, which develops low-cost, long-term geophysical monitoring for large-scale CO₂ storage. It integrates passive and active seismic, electromagnetic, gravity, and surface deformation data to ensure containment and conformance while...

The SPARSE project focuses on developing a low-cost, long-term geophysical monitoring system for CO₂ storage, using a sparse node-based approach that integrates seismic, electromagnetic, gravity, and surface deformation data. The system is designed to ensure containment and conformance while...

The presentation focuses on the ACT4 SPARSE project, which aims to develop a low-cost, long-term geophysical monitoring system for CO₂ storage sites. It integrates seismic, electromagnetic, gravity, and surface deformation data using sparse node-based monitoring to ensure containment and conformance...