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  1.  11
    Numerical Simulation of the in Situ Stress in a High-Rank Coal Reservoir and its Effect on Coal-Bed Methane Well Productivity.Shuai Yin, Airong Li, Qiang Jia, Wenlong Ding & Yanxia Li - 2018 - Interpretation: SEG 6 (2):T271-T281.
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  2.  22
    Numerical Simulation of the in Situ Stress in a High-Rank Coal Reservoir and its Effect on Coal-Bed Methane Well Productivity.Shuai Yin, Airong Li, Qiang Jia, Wenlong Ding & Yanxia Li - 2018 - Interpretation 6 (2):T271-T281.
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  3.  21
    Investigation of the Methane Adsorption Characteristics of Marine Organic-Rich Shale: A Case Study of the Lower Cambrian Niutitang Shale in the Fenggang Block, Northern Guizhou Province, South China.Yang Gu, Wenlong Ding, Min Yin, Ruyue Wang, Baocheng Jiao, Gang Zhao & Lin Lu - 2018 - Interpretation: SEG 6 (4):T819-T833.
    The marine shale in South China has great gas exploration potential, and exploration in the Sichuan Basin has been successful, but the degree of exploration remains low in the Guizhou Province. We used organic geochemical analyses, scanning electron microscopy, field emission SEM, nuclear magnetic resonance, X-ray diffraction analysis, and low-temperature [Formula: see text] and [Formula: see text] adsorption experimental methods to study the micropore types and pore structures and their effects on the methane adsorption capacity of organic-rich shales found in (...)
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  4.  17
    Investigation of the Methane Adsorption Characteristics of Marine Organic-Rich Shale: A Case Study of the Lower Cambrian Niutitang Shale in the Fenggang Block, Northern Guizhou Province, South China.Yang Gu, Wenlong Ding, Min Yin, Ruyue Wang, Baocheng Jiao, Gang Zhao & Lin Lu - 2018 - Interpretation 6 (4):T819-T833.
    The marine shale in South China has great gas exploration potential, and exploration in the Sichuan Basin has been successful, but the degree of exploration remains low in the Guizhou Province. We used organic geochemical analyses, scanning electron microscopy, field emission SEM, nuclear magnetic resonance, X-ray diffraction analysis, and low-temperature [Formula: see text] and [Formula: see text] adsorption experimental methods to study the micropore types and pore structures and their effects on the methane adsorption capacity of organic-rich shales found in (...)
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  5.  12
    Early Cretaceous Redbeds From the Minle Basin, Hexi Corridor, Northwest China: Mineralogy and Geochemistry Implications for Paleoweathering, Provenance, and Tectonic Settings.Yaxiong Sun, Wenlong Ding, Yang Gu, Gang Zhao, Siyu Shi, Baocheng Jiao & Xiang Ji - 2019 - Interpretation 7 (2):T525-T545.
    Redbeds with a large thickness in the lower Cretaceous record abundant geologic information in the Minle Basin. We have conducted the paleoweathering conditions, provenance, and tectonic settings based on mineralogy and geochemistry. Our results indicate that mudstone samples are characterized by abundant illite with negligible amounts of K-feldspars and analcime. The lower part of the lower Cretaceous is rich in quartz, whereas the upper part is dominated by dolomite and analcime. We suggest that this is caused by the decreasing input (...)
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  6. Pore Structure Characteristics and its Effect on Adsorption Capacity of Niutitang Marine Shale in Sangzhi Block, Southern China.Xinghua Wang, Arash Dahi Taleghani & Wenlong Ding - 2019 - Interpretation 7 (4):T843-T856.
    Characteristics of shale pore structures may play an important role in natural gas accumulation and consequently estimating the original gas in place. To determine the pore structure characteristics of Niutitang marine shale in the Sangzhi block, we carried out [Formula: see text] adsorption-desorption, [Formula: see text] adsorption, and methane isothermal adsorption on shale samples to reveal the pore size distribution and its impact on the adsorption capacity. Results indicate that the Niutitang Shale is in stages of maturity and overmaturity with (...)
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