Investigation on Coal Skeleton Deformation in CO2 Injection Enhanced CH4 Drainage From Underground Coal Seam

Fan, Chunhua; Yang, Lei; Wang, Gang; Huang, Qiming; Fu, Xiang; Wen, Haiou

doi:10.3389/feart.2021.766011

Cited by 52 publications

(26 citation statements)

References 30 publications

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“…The mechanical properties and fracture energy of rocks can be reflected from the failure mode to some extent. − Therefore, the relationship between the crack morphology and the fracture characteristics is discussed. Figure shows the failure modes of the sandstone samples under different conditions.…”

Section: Resultsmentioning

confidence: 99%

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Hou

Cai

et al. 2021

Energy Fuels

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Liquid nitrogen (LN2) cryogenic fracturing can significantly enhance the permeability of tight-sandstone gas reservoirs. In order to evaluate the control factors influencing the changes in the crack toughness and fracture energy of the sandstone in LN2 cryogenic fracturing, the influences of the LN2 cooling state, freeze–thaw cycle (FTC) times, moisture content of the sandstone, and notch inclination angle were studied using combined three-point bending experiments. At the same time, the internal structural damage and induced fracture morphology are employed to analyze the failure mechanism. The results show that the LN2 freeze–thaw treatment can decrease the crack toughness and fracture energy of the sandstone, while these values increase for the LN2 freezing treatment. The water saturation condition can enhance the LN2 cooling effect, but it has a larger influence on LN2 freezing. With the increase of the notch angle, both the crack toughness and the energy release rate (ERR) of the saturated sandstone significantly reduce, but the applied energy only has a slight increase. The crack toughness, ERR, and applied energy of the saturated sandstone gradually decrease with the increase in the LN2 FTC, and their values after 30 LN2 FTC times decrease by 52.67, 76.04, and 41.15%, respectively. The strength feature and fracture energy of the sandstone heavily depend on the internal microstructure and crack propagation mechanism of the sandstone.

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Section: Resultsmentioning

confidence: 99%

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Hou

Cai

et al. 2021

Energy Fuels

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“…Recently, Li and He (He, 2014;Li et al, 2016;Fan et al, 2021) proposed that the deformation of the surrounding rock is caused by various factors such as soft features, poor support, high ground stress, groundwater, and geological formations. The research on the surrounding rock control technology of water drenching and soft rock roadways is mainly carried out through numerical simulation, industrial tests, and laboratory tests (Zhang et al, 2016;Tao et al, 2020;Zhai et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Instability and failure characteristics of surrounding rock of water drenching roadway in thick coal seam

Jia

Fan

et al. 2022

Front. Earth Sci.

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Aiming at the water drenching problem in the roof of transport roadway 2,606 of the Zhangcun coal mine, the instability and failure law of the drenching roadway was studied by borehole peephole, soaking water softening test and numerical simulation in this study. It is found that the relation between compressive strength, elastic modulus, tensile strength and moisture content is a negative exponential function. Subsequently, the Fish language was used to embed the functional relationship between mechanical parameters of surrounding rock in the roadway and moisture content into Flac3D software to simulate the failure law of surrounding rock under different moisture contents. The influence of moisture content on the surrounding rock is ordered as roof > two sides > floor. Through the comparison between borehole peeping and plastic zone, the roof water content is obtained by inversion. The results provide a reference basis for the selection of the surrounding rock support method for drenching roadway in thick coal seam.

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“…Coalbed methane (CBM), a hydrocarbon gas resource stored in coal seams, is an attractive alternative to traditional energy sources, such as coal. , China ranks third in the world in CBM reserves. − CBM is an unconventional natural gas resource that consists primarily of methane . The development and utilization of CBM relieve the gas pressure in coal seams, thereby improving the safety of coal mine production. , However, most gas reservoirs present low permeability and shortcomings, such as low porosity and high ground pressure; therefore, stimulation measures should be implemented to increase the drainage rate. − Hydraulic fracturing is a common technology used to increase CBM production .…”

Section: Introductionmentioning

confidence: 99%

Synergistic Stabilization Mechanism of SiO₂ Nanoparticles and Anionic Surfactants during Foam Fracturing

Huang

Wang

et al. 2022

Energy Fuels

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To study the synergistic stabilization mechanism of SiO2 nanoparticles and anionic surfactants during foam fracturing, inorganic SiO2 nanoparticles and sodium dodecyl sulfate (SDS) were used as a foam stabilizer and foaming agent, respectively, to prepare foam fluids. Foam stability was analyzed by evaluating the foam volume, half-life, and morphology. The synergistic stabilization mechanism of SDS and SiO2 nanoparticles was studied by measuring and analyzing the surface tension, contact angle, and bubble diameter. The results indicated that, at a suitable SDS concentration, the surface activity of the nanoparticles can be altered to enhance the adsorption of SiO2 nanoparticles at the gas–liquid interface and, consequently, improve foam stability. However, excess SDS caused a decrease in foam stability. Upon increasing the SDS concentration, the contact angle between the SiO2 nanoparticles and water decreased gradually, and the SiO2 nanoparticles became increasingly hydrophilic. The average bubble diameter of the SiO2–SDS foam systems decreases with the increase in time, and the foam system with the smaller change trend of the bubble diameter is more stable. Moreover, with the increase in time, the nanoparticles adsorbed by the ruptured bubbles are transferred to the surrounding of the bubbles that are not ruptured, increasing their liquid film thickness and improving the stability of the foam system. These results provide an experimental basis for the application of the nanoparticle in foam stabilization during coal seam fracturing.

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Investigation on Coal Skeleton Deformation in CO2 Injection Enhanced CH4 Drainage From Underground Coal Seam

Cited by 52 publications

References 30 publications

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Instability and failure characteristics of surrounding rock of water drenching roadway in thick coal seam

Synergistic Stabilization Mechanism of SiO₂ Nanoparticles and Anionic Surfactants during Foam Fracturing

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Investigation on Coal Skeleton Deformation in CO2 Injection Enhanced CH4 Drainage From Underground Coal Seam

Cited by 52 publications

References 30 publications

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Influence of Various Control Factors on Fracture Toughness and Fracture Energy of Sandstone Subjected to Liquid Nitrogen Cooling

Instability and failure characteristics of surrounding rock of water drenching roadway in thick coal seam

Synergistic Stabilization Mechanism of SiO2 Nanoparticles and Anionic Surfactants during Foam Fracturing

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Product

Resources

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Synergistic Stabilization Mechanism of SiO₂ Nanoparticles and Anionic Surfactants during Foam Fracturing