Simulating Water Invasion Dynamics in Fractured Gas Reservoirs

The Longwangmiao Formation gas reservoir in the Moxi block of the Sichuan Basin is a complex carbonate reservoir characterized by a low porosity and permeability, strong heterogeneity, developed natural fractures, and active water bodies. The existence of natural fractures allows water bodies to eas...

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Bibliographic Details
Published in:Energies (Basel) 2024-12, Vol.17 (23), p.6055
Main Authors: Li, Yueyang, Zhang, Enli, Yue, Ping, Zhao, Han, Xie, Zhiwei, Liu, Wei
Format: Article
Language:English
Subjects:
Carbonates
Design
Experiments
fractured gas reservoir
Laws, regulations and rules
marine carbonate reservoir
Natural gas
orthogonal experiment
Permeability
Porosity
Rankings
Simulation
Test methods
Water
water invasion law
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Summary:The Longwangmiao Formation gas reservoir in the Moxi block of the Sichuan Basin is a complex carbonate reservoir characterized by a low porosity and permeability, strong heterogeneity, developed natural fractures, and active water bodies. The existence of natural fractures allows water bodies to easily channel along these fractures, resulting in a more complicated mechanism and dynamic law of gas-well water production, which seriously impacts reservoir development. Therefore, a core-based simulation experiment was designed for oil–water two-phase flow. Three main factors influencing the water production of the gas reservoir, namely fracture permeability, fracture penetration, and water volume multiple, were analyzed using the orthogonal test method. The experimental results showed that the influences of the experimental parameters on the recovery factor and average water production can be ranked as water volume multiple > fracture penetration > fracture permeability, with the influence of the water volume multiple being slightly greater than that of the other two parameters. It provides a certain theoretical basis for water control of the gas reservoir.
ISSN:1996-1073
1996-1073
DOI:10.3390/en17236055