Effect of moisture on mechanical and physical properties of coals: a uniaxial compression study

The estimation of mechanical and physical properties of coal reservoirs is important for the successful exploration and development of coalbed methane (CBM). Unlike conventional sandstone reservoirs, coal reservoirs exhibit greater sensitivity to stress, resulting in distinct mechanical and physical...

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Published in:Scientific reports 2024-11, Vol.14 (1), p.27452-15, Article 27452
Main Authors: Li, Song, Tang, Dazhen, Feng, Peng, Chang, Chuang, Wang, Junjian
Format: Article
Language:English
Subjects:
639/4077/4082
704/2151/2809
704/2151/330
704/2151/431
Axial stress
Coal
Coal reservoir
Coalbed methane
Compression
Humanities and Social Sciences
Mechanical and physical properties
Mechanical properties
Moisture condition
multidisciplinary
Permeability
Physical properties
Poisson's ratio
Porosity
Reservoirs
Sandstone
Science
Science (multidisciplinary)
Strain
Strain hysteresis phenomenon
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Tang, Dazhen
Feng, Peng
Chang, Chuang
Wang, Junjian
description The estimation of mechanical and physical properties of coal reservoirs is important for the successful exploration and development of coalbed methane (CBM). Unlike conventional sandstone reservoirs, coal reservoirs exhibit greater sensitivity to stress, resulting in distinct mechanical and physical behaviors. In this study, uniaxial compression tests were performed on both low-rank and high-rank coal samples under different moisture conditions to reveal the mechanical and physical property changes with stress. The results indicate that during axial stress loading (up to 2.8 MPa), axial strain initially increases rapidly and subsequently at a slower rate, with an axial strain of 0.13–0.25% observed at the maximum axial stress. The instantaneous Young’s modulus increases linearly before stabilizing, ranging from 618.01 to 4861.10 MPa, while the Poisson’s ratio remains relatively constant or increases linearly, ranging from 0.002 to 0.165. This results in a negative exponential decrease in both porosity and permeability, with maximum reductions of 1.77–4.21% and 5.38–12.25%, respectively. The mechanical properties of coal are influenced by both the cementation effect of water at low water saturation and the softening effect at high water saturation, which results in axial strain decreases and then increases as the water saturation increases. Concurrently, the elastic modulus initially increases and then decreases, while the Poisson’s ratio exhibits a less pronounced change or tends to increase. Consequently, there is a trend in which porosity and permeability first increase and then decrease. In addition, during stress unloading, the influence of water in coal induces a notable strain hysteresis phenomenon in water-containing coal samples, and this phenomenon is more obvious in the low-rank coals.
doi_str_mv 10.1038/s41598-024-78929-8
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The mechanical properties of coal are influenced by both the cementation effect of water at low water saturation and the softening effect at high water saturation, which results in axial strain decreases and then increases as the water saturation increases. Concurrently, the elastic modulus initially increases and then decreases, while the Poisson’s ratio exhibits a less pronounced change or tends to increase. Consequently, there is a trend in which porosity and permeability first increase and then decrease. 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Unlike conventional sandstone reservoirs, coal reservoirs exhibit greater sensitivity to stress, resulting in distinct mechanical and physical behaviors. In this study, uniaxial compression tests were performed on both low-rank and high-rank coal samples under different moisture conditions to reveal the mechanical and physical property changes with stress. The results indicate that during axial stress loading (up to 2.8 MPa), axial strain initially increases rapidly and subsequently at a slower rate, with an axial strain of 0.13–0.25% observed at the maximum axial stress. The instantaneous Young’s modulus increases linearly before stabilizing, ranging from 618.01 to 4861.10 MPa, while the Poisson’s ratio remains relatively constant or increases linearly, ranging from 0.002 to 0.165. This results in a negative exponential decrease in both porosity and permeability, with maximum reductions of 1.77–4.21% and 5.38–12.25%, respectively. The mechanical properties of coal are influenced by both the cementation effect of water at low water saturation and the softening effect at high water saturation, which results in axial strain decreases and then increases as the water saturation increases. Concurrently, the elastic modulus initially increases and then decreases, while the Poisson’s ratio exhibits a less pronounced change or tends to increase. Consequently, there is a trend in which porosity and permeability first increase and then decrease. In addition, during stress unloading, the influence of water in coal induces a notable strain hysteresis phenomenon in water-containing coal samples, and this phenomenon is more obvious in the low-rank coals.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>39523375</pmid><doi>10.1038/s41598-024-78929-8</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects 639/4077/4082
704/2151/2809
704/2151/330
704/2151/431
Axial stress
Coal
Coal reservoir
Coalbed methane
Compression
Humanities and Social Sciences
Mechanical and physical properties
Mechanical properties
Moisture condition
multidisciplinary
Permeability
Physical properties
Poisson's ratio
Porosity
Reservoirs
Sandstone
Science
Science (multidisciplinary)
Strain
Strain hysteresis phenomenon
title Effect of moisture on mechanical and physical properties of coals: a uniaxial compression study
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