Subsurface Fluid Injection and Energy Storage
Open Access
Numéro
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 76, 2021
Subsurface Fluid Injection and Energy Storage
Numéro d'article 39
Nombre de pages 19
DOI https://doi.org/10.2516/ogst/2021015
Publié en ligne 7 juin 2021
  • Al-Otaibi B.Z., Schechter D.S., Wattenbarger R.A. (2015) Production forecast, analysis and simulation of eagle ford shale oil wells, in: Paper presented at the SPE Middle East Unconventional Resources Conference and Exhibition, Muscat, Oman. SPE-172929. [Google Scholar]
  • Anjos S.M.C., De Ros L.F., Silva C.M.A. (1999) Chlorite authigenesis and porosity preservation in the upper cretaceous marine sandstones of the Santos Basin, Offshore Eastern Brazil, Blackwell Publishing Ltd, Hoboken, NJ. [Google Scholar]
  • Baker J.C., Havord P.J., Martin K.R., Ghori K.A.R. (2000) Diagenesis and petrophysics of the Early Permian Moogooloo Sandstone, southern Carnarvon Basin, Western Australia, AAPG Bull. 84, 2, 250–265. [Google Scholar]
  • Berger A., Gier S., Krois P. (2009) Porosity-preserving chlorite cements in shallow-marine volcaniclastic sandstones: Evidence from Cretaceous sandstones of the Sawan gas field, Pakistan, AAPG Bull. 93, 5, 595–615. [Google Scholar]
  • Billault V., Beaufort D., Baronnet A., Lacharpagne J.C. (2003) A nanopetrographic and textural study of grain-coating chlorites in sandstone reservoirs, Clay Miner. 38, 3, 315–328. [Google Scholar]
  • Chen G.J., Du G.C., Zhang G.C., Wang Q., Lv C.F., Chen J. (2011) Chlorite cement and its effect on the reservoir quality of sandstones from the Panyu low-uplift, Pearl River Mouth Basin, Petrol. Sci. 8, 2, 143–150. [Google Scholar]
  • Denne R.A., Hinote R.E., Breyer J.A., Kosanke T.H., Lees J.A., Engelhardt-Moore N., Spaw J.M., Tur N. (2014) The Cenomanian-Turonian Eagle Ford Group of South Texas: Insights on timing and paleoceanographic conditions from geochemistry and micropaleontologic analyses, Paleogeography 413, 2–28. [Google Scholar]
  • Ding X.Q., Zhang S.N., Ge P.L., Wan Y.L. (2010) Relationship between reservoir properties and chlorite rims: A case study from Yanchang formation of South Ordos Basin, North China, Geol. J. China Univ. 16, 2, 247–254. (in Chinese with English abstract). [Google Scholar]
  • Ehrenberg S.N. (1993) Preservation of anomalously high porosity in deeply buried sandstones by chlorite rims: Examples from the Norwegian Continental Shelf, AAPG Bull. 77, 1260–1286. [Google Scholar]
  • Friis H., Molenaar N., Varming T. (2014) Chlorite meniscus cement – implications for diagenetic mineral growth after oil emplacement, Terra Nova 26, 1, 14–21. [Google Scholar]
  • Fu J.H. (2018) Theory and technology of tight oil exploration in Ordos Basin, Science Press. (in Chinese with English abstract). [Google Scholar]
  • Gong Y.J., Liu S.B., Zhu R.K., Liu K.Y., Tang Z.X., Jiang L. (2015) Micro-occurrence of Cretaceous tight oil in southern Songliao Basin, NE China, Petrol. Explor. Develop. 42, 5, 681–688. (in Chinese with English abstract). [Google Scholar]
  • Grigsby J.D. (2001) Origin and growth mechanism of authigenic chlorite in sandstones of the Lower Vicksburg Formation, South Texas, J. Sediment. Res. 71, 1, 27–36. [CrossRef] [Google Scholar]
  • Guo K., Zeng J.H., Liu T.T., Lei X. (2013) Hydrocarbon fluid flow stages and oil migration history in Yanchang formation of Longdong Area, Ordos Basin, Geoscience 27, 2, 382–388. (in Chinese with English abstract). [Google Scholar]
  • Heald M.T., Anderegg R.C. (1960) Differential cementation in the Tuscarora sandstone, J. Sediment. Res. 30, 4, 568–577. [Google Scholar]
  • Huang S.J., Xie L.W., Zhang M., Wu W.H., Shen L.C., Liu J. (2004) Formation mechanism of authigenic chlorite and relation to preservation of porosity in nonmarine Triassic reservoir sandstones, Ordos Basin and Sichuan Basin, China, J. Chengdu Univ. Technol.: Sci. Technol. Ed. 31, 3, 273–281. (in Chinese with English abstract). [Google Scholar]
  • Huangfu H.Y., Jiang Y., Yang G.J. (2003) Features of microscopic oil of Ordovician carbonate rock in Tahe-4 district, Xinjiang Geol. 21, 4, 495–496. (in Chinese with English abstract). [Google Scholar]
  • Huggett J.M., Burley S.D., Longstaffe F.J., et al. (2015) The nature and origin of authigenic chlorite and related cements in oligo-miocene reservoir sandstones, Tapti gas fields, Surat depression, Offshore Western India, J. Pet. Geol. 38, 4, 383–409. [Google Scholar]
  • Jeffry D.G. (2001) Origin and growth mechanism of authigenic chlorite in sandstones of the lower Vicksburg formation, South Texas, J. Sediment. Res. 71, 1, 27–36. [CrossRef] [Google Scholar]
  • Jia C.Z., Zheng M., Zhang Y.F. (2012) Unconventional hydrocarbon resources in China and the prospect of exploration and development, Petrol. Explor. Develop. 39, 2, 129–136. (in Chinese with English abstract). [Google Scholar]
  • King H.M. (2019) Chlorite. On line encyclopedia at: https://geology.com/minerals/chlorite.shtml. [Google Scholar]
  • Kuhn P.P., Primio R.D., Hill R., Lawrence J.R., Horsfield B. (2012) Three-dimensional modeling study of the low-permeability petroleum system of the Bakken formation, AAPG Bull. 10, 1867–1897. [Google Scholar]
  • Lan Y.F., Huang S.J., Liang R., Zhang X. (2011) Influence of authigenic chlorite on the relationship of porosity to permeability in the sandstone reservoir: A case study from Chang-8 oil-bearing formation of Triassic in Jiyuan-Huaqing area, Ordos Basin, J. Chengdu Univ. Technol. (Sci. Technol. Ed.) 38, 3, 313–320. (in Chinese with English abstract). [Google Scholar]
  • Landon S.M., Longman M.W., Luneau B.A. (2001) Hydrocarbon source rock potential of the Upper Cretaceous Niobrara Formation, Western Interior Seaway of the Rocky Mountain region, Mountain Geol. 1, 1–18. [Google Scholar]
  • LeFever J.A., LeFever R.D., Nordeng S.H. (2013) Reservoirs of the Bakken Petroleum System: A core-based perspective. Search and Discovery Article 10535. [Google Scholar]
  • Li J., Li J., Li Z.S., Zhang C.L., Cui H.Y., Zhu Z.L. (2018) Characteristics and genetic types of the Lower Paleozoic natural gas, Ordos Basin, Mar. Pet. Geol. 89, 106–119. [Google Scholar]
  • Liu Y.Q., Li W.H. (1996) Diagenetic characteristics and porosity evolution of the oil bearing arkoses in the Upper Triassic in the Eastern Shaan-Gan-Ning Basin, Acta Sedimentol. Sin. 14, 3, 87–96. (in Chinese with English abstract). [Google Scholar]
  • Liu J.K., Peng J., Liu J.J., Wang Y., Liu J.F. (2009) Pore-preserving mechanism of chlorite rims in tight sandstone: An example from the T3 × Formation of Baojie area in the transitional zone from the central to southern Sichuan Basin, Oil Gas Geol. 30, 1, 53–58. (in Chinese with English abstract. [Google Scholar]
  • Luo J.L., Liu X.H., Lin T., Zhang S., Li B. (2006) Impact of diagenesis and hydrocarbon emplacement on sandstone reservoir quality of the Yanchang Formation (Upper Triassic) in the Ordos Basin, Acta Sedimentol. Sin. 80, 5, 664–673. (in Chinese with English abstract). [Google Scholar]
  • Ma P.J., Lin C.Y., Zhang S.Q., Dong C.M., Xu Y.F. (2017a) Formation of chlorite rims and the impact of pore-lining chlorite on reservoir quality: A case study from Shiqianfeng sandstones in upper Permian of Dongpu Depression, Bohai Bay Basin, eastern China, Australian J. Earth Sci. 64, 6, 825–839. [Google Scholar]
  • Ma P.J., Lin C.Y., Zhang S.Q., et al. (2017b) An overview on study of chlorite films in clastic reservoirs, J. Palaeogeogr. 19, 1, 147–157. [Google Scholar]
  • Pittman E.D. (1992) Clay coats: occurrence and relevance to preservation of porosity in sandstones, SEPM Spec. Publ. 47, 241–255. [Google Scholar]
  • Pittman E.D., Lumsden D.N. (1968) Relationship between chlorite coatings on quartz grains and porosity, Spiro Sand, Oklahoma, J. Sediment. Res. 38, 2, 668–670. [Google Scholar]
  • Salman B., Robert H.L., Linda B. (2002) Anomalously high porosity and permeability in deeply buried sandstone reservoirs: Origin and predictability, AAPG Bull. 86, 301–328. [Google Scholar]
  • Shi J.A., Zhao X., Wang J.P., Wang Q., Lu L.F., Wang L., Wang Y.X. (2005) Geochemical characteristics of oils and extracts in different state from sandstone reservoir: I. Linear hydrocarbon, Acta Sedimentol. Sin. 23, 1, 162–169. (in Chinese with English abstract). [Google Scholar]
  • Sonnenberg A.S. (2015) The giant continuous oil accumulation in the Bakken Petroleum System, Williston Basin, AAPG Search Discov. Article 110220, 1–10. [Google Scholar]
  • Sonnenberg A.S. (2017) Keys to Niobrara and Codell Production, East Pony/Redtail Area, Denver Basin, Colorado, AAPG Search Discov. Article 10991, 1–3. [Google Scholar]
  • Sonnenberg A.S., Pramudito A. (2009) Petroleum geology of the giant Elm Coulee field, Williston Basin, AAPG Bull. 9, 1127–1153. [Google Scholar]
  • Sonnenberg S.A., Randy Ray R., O’Neal D., Dellenbach B., Finley E., Hinricher M. (2018) Introduction to special section: The Niobrara petroleum system, a multi basin resource play in the Rockies, Interpretation 6, 1, 2324–8866. [Google Scholar]
  • Tian J.F., Chen Z.L., Fan Y.F., Li P.P., Song L.J. (2008) The occurrence, growth mechanism and distribution of authigenic chlorite in sandstone, Bull. Mineral. Petrol. Geochem. 27, 2, 200–204. (in Chinese with English abstract). [Google Scholar]
  • Tong Z.G., He Q., Zhao Z.G. (2011) Analyzing hydrocarbon charges from hydrocarbon occurrences: A case of Pinghu oil and gas field in Xihu sag, East China sea, China Offshore Oil Gas 23, 3, 154–157. (in Chinese with English abstract). [Google Scholar]
  • Wang J.J., Pan C.C., Jiang L.L. (2010) Molecular and carbon isotope correlation of free, adsorbed and inclusion oils from the Carboniferous sandstone in the Tazhong-4 oilfield, Geochimica 39, 5, 479–490. (in Chinese with English abstract). [Google Scholar]
  • Wang M.L., Zhang S.A., Zhang F.D. (2015) Quantitative research on tight oil microscopic state of Chang 7 Member of Triassic Yanchang Formation in Ordos Basin, NW China, Petrol. Explor. Develop. 42, 6, 827–832. [Google Scholar]
  • Worden R.H., Griffiths J., Wooldridge L.J., et al. (2020) Chlorite in sandstones, Earth-Sci. Rev. 204, 103105. [Google Scholar]
  • Wu S.T., Zou C.N., Zhu R.K., Yao J.L., Tao S.Z., Yang Z., Zhai X.F., Cui J.W., Lin S.H. (2016) Characteristics and origin of tight oil accumulations in the Upper Triassic Yanchang Formation of the Ordos Basin, North-Central China, Acta Geological. Sin. 5, 1821–1837. [Google Scholar]
  • Wu S.T., Zhu R.K., Yang Z., Mao Z.G., Cui J.W., Zhang X.X. (2018) Distribution and characteristics of lacustrine tight oil reservoirs in China, J. Asian Earth Sci. 10, 1016. [Google Scholar]
  • Yang H., Zhang W.Z. (2005) Leading effect of the seventh member high-quality source rock of Yanchang Formation in Ordos basin during the enrichment of low-penetrating oil-gas accumulation – geology and geochemistry, Geochimica 37, 1, 59–64. (in Chinese with English abstract). [Google Scholar]
  • Yang W., Chen G.J., Zhang M.J., Li C.S., Lv C.C., Li C. (2012) Influence of authigenic chlorite on reservoir properties of Chang 8 Member set in Zhenbei area, Ordos Basin, Lithologic Reserv. 24, 3, 27–32 + 38. (in Chinese with English abstract). [Google Scholar]
  • Yang C., He Y.H., Ma F.X., Lei Y.H., Chen Y.G. (2018) Organic fluid activity times of Yanchang Formation in the southern Ordos Basin, Nat. Gas Geosci. 29, 5, 655–664. [Google Scholar]
  • Yao J.L., Wang Q., Zhang R., Li S.T. (2011) Forming mechanism and their environmental implications of chlorite-coatings in Chang 6 sandstone (upper Triassic) of Hua-Qing Area, Ordos Basin, Acta Sedimentol. Sin. 29, 1, 72–79. (in Chinese with English abstract). [Google Scholar]
  • Zeng L., Wang L.S., Xu H.X., Jiao Y.G., Cui S.N., Han H., Zhang B.S. (2010) Petroleum Industrial Standard of People Republic of China: analysis method for clay minerals and ordinary non-clay minerals in sedimentary rocks by the X-Ray diffraction, SY/T 5163–2010, National Energy Administration, pp. 1–48. [Google Scholar]
  • Zhang X., Lin C.M., Cai Y.F., et al. (2012) Pore-lining chlorite cements in lacustrine-deltaic sandstones from the upper Triassic Yanchang formation, Ordos Basin, China, J. Pet. Geol. 35, 3, 273–290. [Google Scholar]
  • Zhou Y., Ji Y., Xu L., Che S., Niu X., Wan L., Zhou Y., Li Z., You Y. (2016) Controls on reservoir heterogeneity of tight sand oil reservoirs in Upper Triassic Yanchang Formation in Longdong Area, southwest Ordos Basin, China: Implications for reservoir quality prediction and oil accumulation, Mar. Pet. Geol. 78, 110–135. [Google Scholar]
  • Zou C.N., Zhu R.K., Bai B., Yang Z., Wu S.T., Su L., Dong D.Z., Li X.J. (2011) First discovery of nano-pore throat in oil and gas reservoir in China and its scientific value, Acta Petrol. Sin. 27, 6, 1857–1864. (in Chinese with English abstract). [Google Scholar]
  • Zou C.N., Tao S.Z., Yang Z., Yuan X.J., Zhu R.K., Hou L.H., Jia J.H., Wang L., Wu S.T., Bai B., Gao X.H., Yang H. (2012a) New advance in unconventional petroleum exploration and research in China, Bull. Mineral. Petrol. Geochem. 31, 4, 312–322. (in Chinese with English abstract). [Google Scholar]
  • Zou C.N., Yang Z., Tao S.Z., Li W., Wu S.T., Hou L.H., Zhu R.K., Yuan X.J., Wang L., Gao X.H., Jia J.H., Guo Q.L., Bai B. (2012b) Nano-hydrocarbon and the accumulation in coexisting source and reservoir, Petrol. Explor. Develop. 39, 1, 13–26. (in Chinese with English abstract). [Google Scholar]

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