Effects of Water and scCO<sub>2</sub> Injection on the Mechanical Properties of Granite at High Temperatures

Shen, Nao; Zhang, Qiang; Li, Xiaochun; Bai, Bing; Hu, Haixiang

doi:10.1155/2020/8838989

Cited by 2 publications

(1 citation statement)

References 42 publications

(56 reference statements)

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“…By using the intrinsic time plasticity theory, Qiu et al [17] established a constitutive relationship for the intrinsic time of gas-containing coal. In addition, some scholars have studied the effects of geological conditions [18,19], temperature [20,21], different loading and unloading conditions [22,23], effective confining pressure [24,25], and waste characterization [26] on the performance of gas-bearing coal.…”

Section: Introductionmentioning

confidence: 99%

Effect of Methane Adsorption on Mechanical Performance of Coal

2022

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Understanding the influence of methane adsorption on coal mechanical properties is an important prerequisite for preventing coal mining and gas mining disasters. In the present research, meager coal and gas coal samples were obtained from Huaneng Yunnan Diandong Energy Co., Ltd. The triaxial compression tests were carried out under different methane adsorption equilibrium pressures and confining pressures. The influence laws of different factors on the mechanical properties of coal were analyzed. The results show that the triaxial stress-strain curve of adsorbed methane coal has similar morphology with that of non-adsorbed coal. Under the same confining pressure, the stress-strain curve morphology of coal before and after adsorbing methane is basically the same but the compressive strength of coal after adsorbing methane decreases. The greater the adsorption equilibrium pressure of methane, the smaller the compressive strength of coal. The change in the mechanical properties (compressive strength and elastic modulus) of coal caused by methane adsorption can be described by the Langmuir curve and the correlation coefficient is more than 0.99. Under any stress environment, high-rank coal shows greater strength and lower elastic modulus than low-rank coal, which is mainly due to the existence of a developed cleat system in high-rank coal that provides more conditions for methane adsorption. The research results provide important data-based support for the prevention of coal and gas outbursts.

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Section: Introductionmentioning

confidence: 99%

Effect of Methane Adsorption on Mechanical Performance of Coal

2022

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Geothermo‐mechanical alterations due to heat energy extraction in enhanced geothermal systems: Overview and prospective directions

Ngoma,

Kolawole,

Olorode

2024

Deep Underground Science and Engineering

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Geothermal energy from deep underground (or geological) formations, with or without its combination with carbon capture and storage (CCS), can be a key technology to mitigate anthropogenic greenhouse gas emissions and meet the 2050 net‐zero carbon emission target. Geothermal resources in low‐permeability and medium‐ and high‐temperature reservoirs in sedimentary sequence require hydraulic stimulation for enhanced geothermal systems (EGS). However, fluid migration for geothermal energy in EGS or with potential CO2 storage in a CO2‐EGS are both dependent on the in situ flow pathway network created by induced fluid injection. These thermo‐mechanical interactions can be complex and induce varying alterations in the mechanical response when the working fluid is water (in EGS) or supercritical CO2 (in CO2‐EGS), which could impact the geothermal energy recovery from geological formations. Therefore, there is a need for a deeper understanding of the heat extraction process in EGS and CO2‐EGS. This study presents a systematic review of the effects of changes in mechanical properties and behavior of deep underground rocks on the induced flow pathway and heat recovery in EGS reservoirs with or without CO2 storage in CO2‐EGS. Further, we proposed waterless‐stimulated EGS as an alternative approach to improve heat energy extraction in EGS. Lastly, based on the results of our literature review and proposed ideas, we recommend promising areas of investigation that may provide more insights into understanding geothermo‐mechanics to further stimulate new research studies and accelerate the development of geothermal energy as a viable clean energy technology.

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Effects of Water and scCO₂ Injection on the Mechanical Properties of Granite at High Temperatures

Cited by 2 publications

References 42 publications

Effect of Methane Adsorption on Mechanical Performance of Coal

Effect of Methane Adsorption on Mechanical Performance of Coal

Geothermo‐mechanical alterations due to heat energy extraction in enhanced geothermal systems: Overview and prospective directions

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Effects of Water and scCO2 Injection on the Mechanical Properties of Granite at High Temperatures

Cited by 2 publications

References 42 publications

Effect of Methane Adsorption on Mechanical Performance of Coal

Effect of Methane Adsorption on Mechanical Performance of Coal

Geothermo‐mechanical alterations due to heat energy extraction in enhanced geothermal systems: Overview and prospective directions

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Effects of Water and scCO₂ Injection on the Mechanical Properties of Granite at High Temperatures