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This section explores the evolving role of geophysics in carbon capture, utilization, and storage (CCUS).

May 7, 2026

Introduction to this special section: Geophysics for CCUS

Key Points

This section explores the evolving role of geophysics in carbon capture, utilization, and storage (CCUS).
Discussing advancements in geophysical technologies for subsurface evaluation.
Highlighting new methods for CO2 monitoring and storage.
Examining the implications of regulatory frameworks for CCUS projects.
Increased confidence in characterizing storage complexes for CO2.
Adaptation of geophysical tools for long-term monitoring of CO2 storage.

Abstract

The deployment of carbon capture, utilization, and storage (CCUS) is beginning to reshape the role of geophysics in subsurface evaluation and surveillance. For decades, geophysical technologies have underpinned exploration and production workflows; today, those same tools — augmented by new methods and monitoring concepts — are being adapted to meet the distinct requirements of long term CO2 storage. As regulatory frameworks mature and commercial projects scale, the industry faces a dual mandate: characterize storage complexes with greater confidence and monitor injected CO2 efficiently over project lifetimes that may span decades.

Introduction to this special section: Geophysics for CCUS

Key Points

Abstract

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