# Depressurization-based reinjection method for low-permeability sandstone geothermal reservoirs

**Authors:** Mingming Lu, Zhongcheng Li, Li Chen, Ming Li, Chao Fan, Anci Wang, Xiaohong Xu, Hangzhou Xiao

PMC · DOI: 10.1038/s41598-026-40426-5 · 2026-02-24

## TL;DR

A new method for geothermal reinjection in low-permeability sandstone reservoirs reduces reinjection pressure by over 80% using staged fluid production and optimized spacing.

## Contribution

Proposes a depressurization-based reinjection method that considers reservoir pressure evolution, reducing reinjection pressure in low-permeability sandstone geothermal reservoirs.

## Key findings

- Staged fluid production forms a pressure drawdown cone, enabling low-pressure reinjection.
- With a depressurization rate of 600 m³/d and well spacing of 250–300 m, reinjection pressure is reduced by over 80%.
- The method provides practical guidance for sustainable geothermal resource development in low-permeability sandstone reservoirs.

## Abstract

The development of low-permeability sandstone geothermal reservoirs is constrained by high reinjection pressures associated with conventional direct reinjection. To address the lack of consideration of reservoir pressure field evolution in existing studies, this paper proposes a depressurization-based reinjection method for low-permeability sandstone geothermal reservoirs. The method adopts staged fluid production to form a pressure drawdown cone, thereby enabling low-pressure reinjection. Taking the H block of the Jilin Oilfield as a case study, a three-dimensional heterogeneous geological model was constructed to simulate reservoir pressure distributions under different depressurization flow rates, and to optimize the depressurization flow rate and well spacing. The results show that, compared with direct reinjection, when the depressurization rate is 600 m³/d and the well spacing is 250–300 m, the reinjection pressure can be reduced by more than 80%, effectively alleviating the high-pressure reinjection challenge in low-permeability sandstone reservoirs. This study provides practical design guidance for the sustainable development of geothermal resources.

## Full-text entities

- **Genes:** H3C3 (H3 clustered histone 3) [NCBI Gene 8352] {aka H3.1, H3/c, H3FC, HIST1H3C}
- **Diseases:** H block (MESH:D006327), fracture (MESH:D050723)
- **Chemicals:** H (MESH:D006859), water (MESH:D014867)

## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13031789/full.md

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Source: https://tomesphere.com/paper/PMC13031789