Characteristics of microscopic pore heterogeneity and development model of Wufeng‒Longmaxi Shales in the Pengshui area of south-east Chongqing

Lu SUN; Zhigang WEN; Guisong HE; Peixian ZHANG; Chenjun WU; Liwen ZHANG; Yingyang XI; Bo LI

doi:10.1007/s11707-023-1087-5

Front. Earth Sci. ›› 2024, Vol. 18 ›› Issue (1) : 188 -203. DOI: 10.1007/s11707-023-1087-5

RESEARCH ARTICLE

Characteristics of microscopic pore heterogeneity and development model of Wufeng‒Longmaxi Shales in the Pengshui area of south-east Chongqing

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Abstract

Normal-pressure shale gas reservoirs are widely distributed in south-eastern Chongqing and show good potential for resource exploration. This paper reports the organic matter (OM), physical, and pore characteristics, mineral composition, and gas content of representative shale samples from the Upper Ordovician Wufeng Formation and Member 1 of the Lower Silurian Longmaxi Formation (Long 1 Member). Microscopic pores within different shale layers of the Long 1 Member were classified, quantitatively evaluated, and their development mechanisms were systematically studied. We found that OM characteristics, mineral composition, and pore type were the main factors affecting the enrichment and preservation of shale gas. The characteristics of the Long 1 Member are mainly controlled by changes in the sedimentary environment. There are evident differences in total organic carbon content and mineral composition vertically, leading to a variable distribution of pores across different layers. Organic matter abundance controls the degree of OM pore development, while clay minerals abundance control the development of clay mineral-related pores. Total organic carbon content generally controls the porosity of the Long 1 Member, but clay minerals also play a role in OM-poor layers. Pore connectivity and permeability are influenced by the development of pores associated with brittle minerals. We propose a microscopic pore development model for the different layers. Combining geochemical data and this pore development model, layers 1‒4 are considered to be excellent shale gas preservation and enrichment reservoirs. Poor preservation conditions in layers 5‒7 result in high levels of shale gas escape. Layers 8‒9 possess a better sealing condition compared with layers 5‒7 and are conducive to the enrichment and preservation of shale gas, and can thus be used as future potential target strata. This research provides a theoretical basis for exploring and evaluating shale gas potential in the studied region or other complex normal-pressure shale blocks.

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Keywords

shale gas / pore characteristics / Longmaxi Formation / reservoir model

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Lu SUN, Zhigang WEN, Guisong HE, Peixian ZHANG, Chenjun WU, Liwen ZHANG, Yingyang XI, Bo LI. Characteristics of microscopic pore heterogeneity and development model of Wufeng‒Longmaxi Shales in the Pengshui area of south-east Chongqing. Front. Earth Sci., 2024, 18(1): 188-203 DOI:10.1007/s11707-023-1087-5

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References

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[1]	Cai X Y, Zhao P R, Gao B, Zhu T, Tian L Y, Sun C X (2021). Sinopec’s shale gas development achievements during the “Thirteenth Five-Year Plan” period and outlook for the future.Oil Gas Geol, 42(1): 16–27

[2]	Cao T T, Deng M, Pan A Y, Wang Q T, Cao Q G, Liu H, Xiao J Y (2023). Characteristics of in situ desorption gas and their relations to shale components: a case study of the Wufeng-Longmaxi Shales in eastern Sichuan Basin, China.Lithosphere, 2023(1): 8015444

[3]	Cao T T, Liu H, Pan A Y, Deng M, Cao Q G, Yu Y, Huang Y R, Xiao Z H (2022), Marine shale gas occurrence and its influencing factors: a case study from the Wufeng-Longmaxi Formation, northwestern Guizhou, China. Geofluids: 2036451

[4]	Cao T T, Xu H, Liu G X, Deng M, Cao Q G, Yu Y (2020). Factors influencing microstructure and porosity in shales of the wufeng-longmaxi formations in northwestern Guizhou, China.J Petrol Sci Eng, 191(1): 107181

[5]	Chen K F, Yang R, Bao H Y, Dong T, Jia A Q, Hu Q H, Guo X W, He S (2023). Depositional-diagenetic process and their implications for pore development of Wufeng-Longmaxi Shales in the Jiangdong Block, Fuling Shale Gas Field, SW China.Mar Pet Geol, 151: 106177

[6]	Chen S B, Qin Y, Wang Y, Zhang H, Zuo Z X (2015). Pore structure and heterogeneity of marine shales in the Middle-Upper Yangtze.Nat Gas Geosci, 26(8): 1455–1463

[7]	Dong D Z, Liang F, Guan Q Z, Jiang Y Q, Zhou S W, Yu R Z, Gu Y F, Zhang S R, Qi L, Liu Y (2023). Development model and identification of evaluation technology for Wufeng Formation–Longmaxi Formation quality shale gas reservoirs in the Sichuan Basin.Nat Gas Indust B, 10(2): 165–182

[8]	Fang Z X, He X P (2016). Formation and evolution of normal pressure shale gas reservoir in Wulong Syncline, Southeast Chongqing, China.Oil & Gas Geology, 37(6): 819–827

[9]	Feng D J, Hu Z Q, Li S J, Du W, Shi Y (2021). Controlling effect of key preservation elements on shale gas enrichment in Longmaxi Formation, eastern marginal zone of Sichuan Basin. Geol Rev 67(1): 144–158 (in Chinese)

[10]	Guo T L (2021). Progress and research direction of deep shale gas exploration and development.Reservoir Evaluat Develop, 11(1): 1–6

[11]	Guo T L, Jiang S, Zhang P X, Zeng P (2020). Progress and direction of exploration and development of normally-pressured shale gas from the periphery of Sichuan Basin. Petrol Geol Experiment 42(5): 837–845 (in Chinese)

[12]	Guo X S, H D, Wei X F, Li Y P (2016). Main controlling factors on shale fractures and their influences on production capacity in Jiaoshiba area, the Sichuan Basin.Oil Gas Geol, 37(6): 799–808

[13]	Guo X S, Zhao Y Q, Shen B J, Wei X F, Lu L F, Pan A Y, Li Y P (2022). Marine shale gas exploration theory in southern China: review and prospects.Acta Geol Sin, 96(1): 172–182

[14]	He Q, He S, Dong T, Zhai G Y, Wang Y, Wan K (2019). Pore structure characteristics and controls of Lower Cambrian Niutitang Formation, western Hubei Province.Petrol Geol Experiment, 41(4): 530–539

[15]	He X P (2021a). Sweet spot evaluation system and enrichment and high yield influential factors of shale gas in Nanchuan area of eastern Sichuan Basin.Nat Gas Ind, 41(1): 59–71

[16]	He X P, Gao Y Q, He G S, Zhang P X, Liu M, Sun B, Wang K M, Zhou D N, Ren J H (2021b). Geological characteristics and key technologies for exploration and development of Nanchuan Shale Gas Field in southeast Chongqing.Petrol Reservoir Evaluat Develop, 11(3): 305–316

[17]	Hu D F, Zhang H R, Ni K, Yu G C (2014). Main controlling factors for gas preservation conditions of marine shales in southeastern margins of the Sichuan Basin.Nat Gas Ind, 34(6): 17–23

[18]	Hu L Y (2017). Tectonic characteristics and its effect on shale gas enrichment in the regional of southeastern Chongqing. Dissertation for the Doctoral Degree. Xuzhou: China University of Mining and Technology

[19]	Huang H Y, He D F, Li Y Q, Li J, Zhang L (2017). Silurian tectonic-sedimentary setting and basin evolution in the Sichuan area, southwest China: implications for palaeogeographic reconstructions.Mar Pet Geol, 92: 403–423

[20]	Huang Y R, Li D, Hursthouse A, Yu Y, Huang J (2020). Characterization of pore microstructure and methane adsorption of organic-rich black shales in northwestern Hunan, south China.Energy Explor Exploit, 38(2): 473–493

[21]	Jiang Z X, Li X, Wang X M, Wang G Z, Chou H Y, Zhu D H, Jiang H Y (2021). Characteristic differences and controlling factors of pores in typical south China shale.Oil Gas Geol, 42(1): 41–53

[22]

Li Y R, Liu X G, Cai C H, Hu Z M, Wu B, Mu Y, Duan X G, Zhang Q X, Zeng S T, Guo J S, Pu Z J (2022). Pore structure characteristics and their controlling factors of deep shale: a case study of the Lower Silurian Longmaxi Formation in the Luzhou area, southern Sichuan Basin.ACS Omega, 7(17): 14591–14610

[23]	Liang Y P, Chen Q, Liao Z W, Lin D (2021). Dissolution effect of carbonate minerals on shale pores and its significance: a case study on the Lower Silurian Longmaxi Formation shale in the eastern Sichuan Basin.Nat Gas Ind, 41(1): 93–101

[24]

[25]	Ma Y S, Cai X Y, Zhao P R (2018). China’s shale gas exploration and development: understanding and practice.Pet Explor Dev, 45(4): 561–574

[26]	Mei L F, Liu Z Q, Tang J G, Sheng C B, Fan Y F (2010). Mesozoic intracontinental progressive deformation in western Hunan-Hubei-eastern Sichuan provinces of China: evidence from apatite fission track and balanced cross-section.Earth Sci, 35(2): 161–174

[27]	Qiu Z, Zou C, Wang H, Dong D, Lu B, Chen Z, Liu D, Li G, Liu H, He J, Wei L (2020). Discussion on the characteristics and controlling factors of differential enrichment of shale gas in the Wufeng-Longmaxi formations in south China.J Nat Gas Geosci, 5(3): 117–128

[28]	Shu Z G (2014). Characteristics of regional structural evolution in the west Hunan-Hubei area of Middle Yangtze Plate.J Oil Gas Technol, 36(10): 8–12

[29]	Tang J G, Wang K M, Qin D C, Zhang Y, Feng T (2021). Tectonic deformation, and its constraints to shale gas accumulation in Nanchuan area, southeastern Sichuan Basin.Bull Geol Sci Technol, 40(5): 11–21

[30]	Tang S H, Fan E P (2014). Methane adsorption characteristics of clay minerals in organic shales.J China Coal Soc, 39(8): 1700–1706

[31]	Wang G C, Carr T R (2012). Methodology of organic-rich shale lithofacies identification and prediction: a case study from Marcellus Shale in the Appalachian Basin.Comput Geosci, 49: 151–163

[32]	Wang X P, Mou C L, Ge X Y, Chen X W, Zhou K K, Wang Q Y, Liang W, Chen C (2014a). Study on clay minerals in the lower Silurian Longmaxi Formation in southern Sichuan Basin and its periphery.Nat Gas Geosci, 25(11): 1781–1794

[33]	Wang Y M, Dong D Z, Li X J, Huang J L, Wang S F, Wu W (2015). Stratigraphic sequence and sedimentary characteristics of Lower Silurian Longmaxi Formation in the Sichuan Basin and its peripheral areas.Nat Gas Ind, 35(03): 12–21

[34]	Wang Y M, Dong D Z, Yang H, He L, Wang S Q, Huang J L, Pu B L, Wang S F (2014b). Quantitative characterization of reservoir space in the Lower Silurian Longmaxi Shale, southern Sichuan, China.Sci China Earth Sci, 57(2): 313–322

[35]	Wang Y M, Wang S F, Dong D Z (2016). Lithofacies characterization of Longmaxi Formation of the Lower Silurian, southern Sichuan.Earth Sci Front, 23(1): 119–133

[36]	Wei X F, Li Y P, Wei Z H, Liu R B, Yu G C, Wang Q B (2017). Effects of preservation conditions on enrichment and high yield of shale gas in Sichuan Basin and its periphery.Petrol Geol Experiment, 39(2): 147–153

[37]	Wen X H, Ma C, Liang F, Mu H Y, Sha Y L, Guo Y T (2015). Gas-bearing influential factors analysis of shale gas reservoir: a case from Niutitang Formation in lower Cambrian of western Hunan.Sci Technol Eng, 15(05): 225–229

[38]	Wu C J, Tuo J C, Zhang L, Zhang M, Li J, Liu Y, Qian Y (2017). Pore characteristics differences between clay-rich and clay-poor shales of the Lower Cambrian Niutitang Formation in the northern Guizhou area, and insights into shale gas storage mechanisms.Int J Coal Geol, 178: 13–25

[39]	Wu L Y, Lu Y C, Jiang S, Liu X F, He G S (2018). Effects of volcanic activities in Ordovician Wufeng-Silurian Longmaxi period on organic-rich shale in the Upper Yangtze area, south China.Pet Explor Dev, 45(5): 806–816

[40]	Xiao D S, Zhao R W, Yang X, Fang D Z, Li B, Sun X X (2019). terization, classification and contribution of marine shale gas reservoirs.Oil Gas Geol, 40(6): 1215–1225

[41]	Xu E S, Li Z M, Yang Z H (2015). Thermal and hydrocarbon generation history of Wufeng and Longmaxi shales in Pengshui area, eastern Sichuan Basin: a well PY1 case study.Petrol Geol Experiment, 37(4): 494–499

[42]	Yan C N, Jin Z J, Zhao J H, Du W, Liu Q Y (2018). Influence of sedimentary environment on organic matter enrichment in shale: a case study of the wufeng and longmaxi formations of the sichuan basin, china.Mar Pet Geol, 92: 880–894

[43]	Yang F, Ning Z, Wang Q, Zhang R, Krooss B M (2016). Pore structure characteristics of lower Silurian shales in the southern Sichuan Basin, China: insights to pore development and gas storage mechanism.Int J Coal Geol, 156: 12–24

[44]	Yang Q, Su S Y, Li A, Zhao Z Z, Xing J, Li X S, Jin C, Zhang J H, Liang C, Sun Y (2022). Influence of pore type on the formation hale in Changning area of southern Sichuan as an example.J China Univ Min Technol, 51(4): 704–717

[45]	Yi T, Zhou W, Yang F, Chen W L, Zhang H T, Xu H, Liu R Y, Zhao X, Jiang K (2020). Types and characteristics of quartzs in shale gas reservoirs of the Longmaxi Formation, Sichuan Basin, China.Acta Miner Sin, 40(2): 127–136

[46]	Yuan Y S, Lin J H, Cheng X Y, Li S J (2014). Yanshan-himalayan denudation in western Hubei eastern Chongqing area.Chin Geophys, 57(9): 2878–2884

[47]	Zeng Y, Hou Y G, Hu D F, He S, Liu R B, Dong T, Yang R, Li X C, Ye Y F (2022). Characteristics of shale fracture veins and paleo-pressure evolution in normal pressure shale gas zone, southeast margin of Sichuan Basin.Earth Sci, 47(5): 1819–1833

[48]	Zhang H, Zhu Y M, Xia X H, Hu L, Chen J (2013). Comparison and explanation of the absorptivity of organic matters and clay minerals in shales.J China Coal Soc, 38(5): 1812–1816

[49]

Zhang K, Song Y, Jia C Z, Jiang Z X, Han F L, Wang P F, Yuan X J, Yang Y M, Zeng Y, Li Y, Li Z W, Liu P, Tang L Y (2022). Formation mechanism of the sealing capacity of the roof and floor strata of marine organic-rich shale and shale itself, and its influence on the characteristics of shale gas and organic matter pore development.Mar Pet Geol, 140: 105647

[50]	Zhang P, Zhang J C, Huang Y Q, Peng J J, Lü Y N, Deng E D (2015). Gas-bearing property and its main controlling factors for Wufeng-Longmaxi Formation marine shale in northwest Guizhou.Petrol Geol Oilfield Develop Daqing, 34(1): 169–174

[51]	Zhang X W, Li J J, Lu S F, Huang K Z, Yin J X (2018). Effects of structural deformation on shale pore structure and adsorption.Special Oil & Gas Reservoirs, 25(3): 32–36

[52]	Zhao D F (2020). Quantitative characterization of pore structure of shale reservoirs in the lower Paleozoic Wufeng-Longmaxi Formation of the east Sichuan area. Dissertation for Doctoral Degree. Xuzhou: China University of Mining and Technology

[53]	Zhao D F, Gou Y H, Bai W B, Ye Z Y, Cao L, Li G, Wang X L (2018b). Controlling mechanism of sedimentary environment on high quality shale reservoir: taking shale reservoirs of Longmaxi Formation in southeast Chongqing as an example.J Henan Polytechnic Univ (Nat Sci), 37(4): 37–47

[54]	Zhao D F, Guo Y H, Zhu Y M, Wang G, Chong X, Hu X (2018a). Analysis of micro-scale heterogeneity characteristics in marine shale gas reservoir: pore heterogeneity and its quantitative characterization.J China Univ Min Technol, 47(2): 296–307

[55]	Zhao J H, Jin Z J, Jin Z K, Wen X, Geng Y K, Yan C N, Nie H K (2016). Lithofacies types and sedimentary environment of shale in Wufeng Longmaxi Formation. Sichuan Basin.Acta Petrol Sin, 37(5): 1572–1586

[56]	Zhou X F, Li X Z, Guo W, Zhang X W, Liang P P, Yu J M (2022). Characteristics, formation mechanism and influence on physical properties of carbonate minerals in shale reservoirs of Wufeng-Longmaxi Formations, Sichuan Basin, China.J Nat Gas Geosci, 7(3): 133–146