Insight into gas threshold pressure gradient and permeability of coal seam: Principle and method for field test
Document Type
Journal Article
Publication Title
Journal of Energy Engineering
Volume
149
Issue
6
Publisher
ASCE
School
Centre for Sustainable Energy and Resources
RAS ID
60689
Funders
National Natural Science Foundation of China / Natural Science Foundation of Henan Province
Abstract
The flow regime of gas migration and production in a low-permeability coal seam includes desorption, diffusion, low-velocity nonlinear seepage, and linear seepage. However, the current field test methods of coal seam permeability in China are all based on linear seepage theory, leaving out the low-velocity nonlinear seepage with gas threshold pressure gradient. Therefore, a field test method for gas threshold pressure gradient and permeability is established in this paper. First, the two upward cross seam boreholes (the piezometric borehole and gas extraction borehole) are constructed in the untapped area of the floor drainage roadway with the low-permeability coal seam. After sealing the holes, the pressure measurement and gas extraction are carried out, respectively. Then, a radial flow mathematical model considering the gas threshold pressure gradient was constructed, and the model was solved by the COMSOL Multiphysics software. Finally, the gas threshold pressure gradient and permeability of the coal seam were obtained by fitting the simulated data of gas pressure and flow to the measured data in the field. The method was applied to the test of gas threshold pressure gradient and permeability before and after the hydraulic punching. Field test results show that this method can more accurately characterize the permeability in the gas extraction process of low-permeability coal seam than the traditional method.
DOI
10.1061/JLEED9.EYENG-4946
Access Rights
subscription content
Comments
Yu, S., Su, X., Song, J., Wang, Q., & You, Z. (2023). Insight into gas threshold pressure gradient and permeability of coal seam: Principle and method for field test. Journal of Energy Engineering, 149(6), article 04023044. https://doi.org/10.1061/JLEED9.EYENG-4946