Data from: Research on radial stress distribution and gas seepage characteristics of the coal body around boreholes

Wen, Zhihui 1 ; Ma, Yuchen1; Wu, Haoyang1; Yang, Shuo1; Zhao, Yanxia1; Guo, Shuqian1; Wang, Yanping1

Published Jan 14, 2026 on Dryad. https://doi.org/10.5061/dryad.j0zpc86v5

Data files

Jan 14, 2026 version files 3.52 KB

FLAC3D_data.txt

1.50 KB
README.md

2.02 KB

Abstract

Addressing the complex issues of elastic-plastic deformation in the coal body around boreholes (CBAB) and gas seepage during gas extraction, this study quantitatively reveals the radial stress distribution characteristics of CBAB based on Mohr-Coulomb strength criteria through postdrilling stress analysis of the surrounding coal body. Radial seepage experiments were simulated, and combined with experimental results, the gas seepage characteristics of CBAB were systematically analyzed, validating the permeability evolution model. The findings indicate that CBAB radially divides into a decompression zone, a stress concentration zone, and a native rock stress zone. Vertical stress first peaks then decays, while horizontal stress continuously decreases. Radial segmented permeability experiments demonstrate that CBAB permeability initially drops sharply due to pore compaction, then undergoes a gradual change dominated by microfractures, eventually stabilizing under rigid matrix control. The calculated results of the CBAB radial permeability evolution model exhibit an R² > 0.95 correlation with experimental flow data.

Summary

This dataset contains processed FLAC3D simulation data for analyzing radial stress distribution and gas seepage characteristics of coal bodies around boreholes. The dataset includes a text file with simulation results and a README for interpreting the data.

File Structure

File Name	Type	Description
`FLAC3D_data.txt`	Text	Processed FLAC3D simulation data. Can be opened with any text editor for analysis or replication.
`README_FLAC3D.md`	Markdown	This README file describes the dataset, file contents, variables, and usage instructions.

Variables and Units

Stress variables: xx, yy, zz in Pascals (Pa)
Material properties:
- bul = bulk modulus (Pa)
- shea = shear modulus (Pa)
- cohesion = cohesion (Pa)
- friction, dilation = angles in degrees
- tension = tensile strength (Pa)
- density = kg/m³
Displacement and velocity in meters (m) and meters per second (m/s)
Other variables follow standard FLAC3D conventions

Usage Instructions

Open FLAC3D_data.txt with any text editor or analysis software (Excel, Python, R, etc.).
The file contains processed simulation results derived from the original FLAC3D model.
Users can analyze the data for stress distribution, gas seepage behavior, or other post-processing tasks.

Additional Notes

This dataset does not include the original FLAC3D input script.
The processed data is sufficient for analysis and replication of the results presented in the associated study.
This README file is provided to facilitate reuse, replication, and further analysis.

Citation

We request citing this Dryad dataset when using this file or its data in any research publication.