journal article
Open Access
Aug 28, 2025
A Rapid Method for the Determination of Coal Seam Gas Pressure Based on Raw Coal Adsorption
Abstract
ABSTRACTThe residual gas pressure of pre‐pumped coal seams is one of the key indices to check the effect of regional outburst prevention. The success rate in direct measurement is low, and it is generally obtained indirectly by use of the Langmuir equation, but it requires many test parameters, is time consuming, and prone to significant errors. To obtain the residual gas pressure of pre‐pumped coal seams more accurately and quickly, based on the theoretical analysis, an adsorption and desorption experimental device built by the authors was used to ascertain the gas adsorption constants of raw coal and applied to the calculation of coal seam gas pressure. The calculated gas pressure value was compared with the experimental gas pressure and the field measured gas pressure. The results show that under the constant temperature (consistent with the temperature of the coal seam) and natural recovery of gas pressure of coal samples, the adsorption constants a and b of raw coal gas are quickly measured by the adsorption/desorption and degassing equilibrium experiment. The relative errors of the calculated values of coal seam gas pressure with those measured by experiments and measured on site are 4.67%–9.43% and 2.78%–5.56%, respectively. Compared with the indirect method using the Langmuir equation, this method can exclude the influences of temperature and moisture on the pressure measurement results, requiring fewer test parameters and less time. Compared with direct pressure measurement in downhole drilling, this method does not require sealing of the hole and is not limited by the location of pressure measurement. The results offer a new method for coal mines to obtain the residual gas pressure in a pre‐pumped coal seam more accurately and quickly, and provide technical support for mining engineers who need to grasp situation around coal seam gas extraction situation and regional outburst prevention, and do so timeously.
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References
37
[1]
Liu C. "Analysis and Prospect of Precise Prevention and Control Technical System Ahead of Large Areas and Time for Gas Disasters in China" Coal Geology & Exploration (2022)
[6]
Cheng Y. P. "Research Progress of Sensitive Index and Critical Values for Coal and Gas Outburst Prediction" Coal Science and Technology (2021)
[7]
K.Wu Z. F.Wang S. L.Shi et al. Experimental Study of Pressure Measurement Without Sealing Hole Based on Coal Core in Situ Volume Recovery. Coal Science and Technology.https://link.cnki.net/urlid/11.2402.TD.20240430.1331.002.
[8]
Wang Z. F. "Simulation on the Temperature Evolution Law of Coal Containing Gas in the Freezing Coring Process" Journal of China Coal Society (2021)
[10]
Xie H. P. "Research Advances on the In‐Situ Pressure‐Preserved Coring and Gas Parameter Determination for Deep Coal Seams" Coal Geology & Exploration (2023)
[11]
Gao M. Z. "Principle and Technology of Coring With In‐Situ Pressure and Gas Maintaining in Deep Coal Mine" Journal of China Coal Society (2021)
[12]
Cui Y. J. "Feasibility Study on Gas Pressure Measurement Technology of Coal Seam Without Sealing Hole" Safety in Coal Mines (2021)
[13]
[14]
Lei H. Y. "Experimental Study on Calibration of Calculation Formula of Gas Content in Coal Seam by Indirect Method" Mining Safety&Environmental Protection (2018)
[15]
Han L. "Analysis on Gas Emission Characteristics and Permeability Inversion of Hydraulic Slotting Borehole" China Safety Science Journal (2021)
[16]
Wang J. "Research and Application of Gas Pressure Calculations Method of Coal Seam Based on Residual Gas Pressure of Coal Sample" Journal of North China Institute of science and Technology (2024)
[17]
Yu B. F. (2000)
[18]
An F. H. "Determination of Coal Gas Pressure Based on Characteristics of Gas Desorption" Journal of Mining & Safety Engineering (2011)
[19]
Tan Z. W. "Determinating Methane Pressure in Coal Seam Application With the Method of Desorption of Drill‐Cuttings" Journal of North China Institute of Science and Technology (2006)
[23]
Xu J. "Theoretic Computing Methods about the Gas Pressure in Coal Seam" Journal of Chongqing University (Natural Science Edition) (2000)
[24]
He J. M. "The Influence of In‐Situ Stress Gradient and Geothermal Temperature on the Calculation of Coalbed Gas Pressure" Journal of Chongqing University (Natural Science Edition) (1999)
[25]
Wang H. T. "Inversitigation of Analytical Method for Coalbed Gas Pressure in High Temperature and Deeply Mining Mines" Journal of China Coal Society (1999)
[26]
K.Wu Z. F.Wang S. Y.Li et al. Research on Determination Method of Coal Seam Gas Pressure Based on Gas Quantity Compensation. Coal Science and Technology.https://link.cnki.net/urlid/11.2402.TD.20250221.1653.010.
[28]
MT/T 752‐1997 Determine Method of Methane Adsorption Capacity in coal[S].
[29]
Wang Q. "Pore Structure Changing Features of the Coking Coal Due to the Adsorption of High Temperature and High Pressure" Journal of Safety and Environment (2021)
[30]
Si L. L. "The Characteristics of Pore Structure and Gas Adsorption for Water‐Immersion Coal After Drying" Coal Geology & Exploration (2021)
[31]
Wang J. F. "Effect of Temperature and Moisture on Raw Coal Adsorption Characteristics" Journal of China Coal Society (2011)
[32]
Zhang Z. G. "Isothermal Adsorption and Swelling Deformation Characteristics of Soft Coal Under Different Moisture Content" Journal of China Coal Society (2020)
[33]
Lin H. F. "Experiment Study on Effects of Factors on Gas Adsorption of Coal Sample" China Safety Science Journal (2015)
[34]
Jiang L. H. "Research on Relationship Between Gas Content and Gas Pressure Based on Langmuir Adsorption" Coal Geology & Exploration (2016)
[35]
Li Y. T. "Study on Gas Adsorption Constant of Raw Coal in Shangshe Coal Mine" Coal Technology (2020)
[36]
GB/T 23250‐2009 The Direct Method of Determining Coalbed Gas Content in the mine[S].
[37]
Metrics
23
Citations
37
References
Details
- Published
- Aug 28, 2025
- Vol/Issue
- 13(10)
- Pages
- 4660-4673
- License
- View
Authors
Cite This Article
Kuan Wu, Shouyi Li, Shengjin Shi, et al. (2025). A Rapid Method for the Determination of Coal Seam Gas Pressure Based on Raw Coal Adsorption. Energy Science & Engineering, 13(10), 4660-4673. https://doi.org/10.1002/ese3.70258
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