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Geosystem Engineering Volume 24, 2021 - Issue 2
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Research Paper

Reservoir characteristics of and potential analysis to Lower Palaeozoic shale in Xiuwu Basin, Lower Yangtze Plate

Hengyu Lyua Key Laboratory of Exploration Technologies for Oil and Gas Resources, Ministry of Education, Yangtze University, Wuhan, China;b School of Geosciences, Yangtze University, Wuhan, ChinaView further author information
,
Li Zengc Jiangxi Geo-Engineering (Group) Corporation, Nanchang, China;d GanZhongNan Institute of Geology and Mineral Exploration, Nanchang, ChinaView further author information
,
Wangshui Hua Key Laboratory of Exploration Technologies for Oil and Gas Resources, Ministry of Education, Yangtze University, Wuhan, China;b School of Geosciences, Yangtze University, Wuhan, ChinaCorrespondence[email protected]
View further author information
&
Menghua Qine Exploration and Development institute, PetroChina Huabei oilfield Company, Renqiu, ChinaView further author information
Pages 61-76 | Received 11 Jan 2019, Accepted 03 Oct 2019, Published online: 17 Oct 2019

References

  • Cai, Z. R., Xia, B., Huang, Q. T., & Wan, Z. F. (2015). Comparative study of the tectonic setting on the formation and preservation of paleozoic shale gas between the upper yangtze and the lower yangtze platforms. Natural Gas Geoscience, 26(8), 1446–1454.
  • CURTIS, & John, B. (2002). Cracked shale-gas systems. Aapg Bulletin, 86(11), 1921–1938.
  • Feng, G. X., & Chen, S. J. (1988). Relationship between the reflectance of bitumen and vitrinite in rock. Natural Gas Industry, 8, 20–25.
  • Fu, L., Chen, Q. L., Pan, J. Y., & Li, S. R. (2017). The reservoir characteristics of over-mature marine shale in the Lower Yangzte Plate: Taking the bottom-lower Cambrian Hetang Formation in Xiuwu Basin as an instance. Science Technology and Engineering, 17(23), 44–50.
  • Guo, T. L. (2016). Discovery and characteristics of the fuling shale gas field and its enlightenment and thinking. Earth Science Frontiers, 23(1), 029–043.
  • Guo, T. L., & Zhang, H. R. (2014). Formation and enrichment mode of Jiaoshiba shale gas field, Sichuan Basin. Petroleum Exploration and Development, 41(1), 28–36.
  • Huang, X. B. (2001). Basic features of decollement structures in the Xiushui-Yongxiu area of northwest Jiangxi. Jiangxi Geology, 15(2), 81–86.
  • Jarvie, D. M., Hill, R. J., Ruble, T. E., & Pollastro, R. M. (2007). Unconventional shale-gas systems: The mississippian barnett shale of north-central Texas as one model for thermogenic shale-gas assessment. AAPG Bulletin, 91(4), 475–499.
  • Jin, Z. J., Hu, Z. Q., Gao, B., & Zhao, J. H. (2016). Controlling factors on the enrichment and high productivity of shale gas in the Wufeng- Longmaxi Formations, southeastern Sichuan Basin. Earth Science Frontiers, 23, 1–10.
  • Li, S. R., Zeng, L., Fang, P., Wang, Z. P., Chen, Q. L., & Fu, L. (2018). New understand of Xinkailing Formation shale gas-bearing potential in Wuning Area, Northwest Jiangxi. Geological Science and Technology Information, 37(6), 188–194.
  • Liang, X., Wang, G. C., Xu, Z. Y., Zhang, J. H., Chen, Z. P., Xian, C. G., & Xiong, S. Y. (2016). South china marine shale gas reservoirs sweet spot 3d reservoir model geological engineering integration comprehensive evaluation zhaotong (yunnan) national shale gas demonstration block. Natural Gas Industry, 36(1), 33-42.
  • Mathia, E. J., Bowen, L., Thomas, K. M., & Aplin, A. C. (2016). Evolution of porosity and pore types in organic-rich, calcareous, Lower Toarcian Posidonia shale. Marine and Petroleum Geology, 75, 117–139.
  • Milliken, K. L., Rudnicki, M., Awwiller, D. N., & Zhang, T. (2013). Organic matter-hosted pore system, Marcellus Formation (Devonian), Pennsylvania. AAPG Bulletin, 97(2), 177–200.
  • Qin, J. Z., Li, Z. M., & Teng, G. E. (2009). A study paleo-geothermometer of high mature marine sequences in South China. Oil and Gas Geology, 30, 608–618.
  • Wang, Z. G. (2015). Breakthrough of fuling shale gas exploration and development and its inspiration. Oil & Gas Geology, 36(1), 1–6.
  • Wu, C. J., Zhang, M. F., Liu, Y., Chen, R., Xiong, D. M., & Tuo, J. C. (2013). Geochemical characteristics of Paleozoic shale in Sichuan Basin and their gas content features. Journal of China Coal Society, 38(05), 794–799.
  • Wu, Q., Liang, X., Xian, C. G., & Li, X. (2015). Geoscience-to-production integration ensures effective and efficient South China marine shale gas development. China Petroleum Exploration, 20(4), 1–23.
  • Xue, B., Zhang, J. C., Yang, C., Zhang, P., & Pei, S. W. (2015). Theoretical chart of shale gas content. Oil & Gas Geology, 36(2), 339–346.
  • Yang, K., Lu, X. C., Xu, J. T., Yin, H. W., & Hu, W. X. (2013). Preliminary verification of common calculation methods of pore size distribution of shale based on gas adsorption isotherm. Journal of China Coal Society, 38(5), 0817–0821.
  • Yu, C., Nie, H. K., Zeng, C. L., Chen, L. J., & Shao, X. Z. (2014). Shale reservoir space characteristics and the effect on gas content in Lower Palaeozoic Erathem of the Eastern Sichuan Bas. Acta Geologica Sinica, 88(7), 1311–1320.
  • Yuan, D. D., Lu, S. F., Chen, F. W., Xiao, H., & Wu, Y. H. (2016). Shale microscopic pore structure characterization in well pengye 1 of southeast Chongqing. Special Oil and Gas Reservoirs, 23(1), 49–53.
  • Zhang, J. C., Lin, L. M., Li, Y. X., Jiang, S. L., Liu, J. X., Jiang, W. L., … Han, S. B. (2012). The method of shale gas assessment: Probability volume method. Earth Science Frontiers, 19, 184–191.
  • Zhang, J. C., Wang, Z. Y., Nie, H. K., Xu, B., Deng, F. Y., Zhang, P. X., … Zhang, M. D. (2008). Shale gas and its significance for exploration. Geoscience, 22(4), 640–646.
  • Zhang, Q., Wang, H. Y., Bai, W. H., Lin, W., & Du, D. (2013). Restoration of organic matter type in Silurian marine shale,South China. Fault-Block Oil & Gas Field, 20(2), 154–156.
  • Zou, C. N., Dong, D. Z., Wang, Y. M., Li, J. X., Huang, J. L., Wang, S. F., … Qiu, Z. (2015). Shale gas in China: Characteristics, challenges and prospects (Ⅰ). Petroleum Exploration and Development, 42(6), 689–701.

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