# Factors Influencing Resistivity Inversion for CO2 Geological Storage Zones: A Quantitative Study

**Authors:** Chenguang Wang, Tianyang Li, Tao Yu, Xiao Feng, Hanghang Liu, Bingrui Du, Yichun Yang, Linjun Yang, Yaxuan Luo

PMC · DOI: 10.3390/s25061796 · Sensors (Basel, Switzerland) · 2025-03-14

## TL;DR

This study examines how different factors affect resistivity inversion in CO2 storage zones using electrical tomography, helping improve monitoring and safety assessments.

## Contribution

The study quantitatively analyzes the impact of storage zone volume, resistivity, and CO2 diffusion on resistivity inversion accuracy.

## Key findings

- An increase in CO2 storage zone volume significantly affects inverted resistivity values.
- Resistivity inversion accuracy decreases when CO2 resistivity exceeds a certain threshold.
- CO2 diffusion causes exponential resistivity changes, improving delineation of diffusion zones.

## Abstract

This study establishes a homogeneous half-space and a horizontally layered two-layer background stratigraphy model using cross-borehole electrical resistivity tomography (ERT) based on an incomplete Gauss–Newton (IGN) method to investigate the resistivity inversion characteristics of CO2 storage zones. The effects of storage zone volume (VCO2), storage zone resistivity (ρCO2), background formation resistivity (ρf), and CO2 diffusion on inversion results were systematically analyzed, and the mechanisms underlying the influence of different parameters on inversion imaging were explored. The results indicate that an increase in the VCO2 significantly affects the inverted resistivity. The ρCO2 can be well inverted within a certain range, but inversion accuracy decreases once the resistivity exceeds a threshold. The ρf is a critical factor influencing inversion results; as the ρf increases, the inverted resistivity values rise markedly, although this effect exhibits an upper limit. The study also uncovers the exponential nature of CO2 diffusion in the storage zone, where diffusion leads to exponential changes in resistivity and the delineation of the diffusion zone is enhanced by comparing pre- and post-injection resistivity differences. These findings offer valuable insights for CO2 storage monitoring, contributing to both safety assessments and the evaluation of storage stability in geological sequestration.

## Full-text entities

- **Chemicals:** CO2 (MESH:D002245)

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11946699/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/PMC11946699/full.md

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Source: https://tomesphere.com/paper/PMC11946699