| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
CHEN Yang, TANG Hongming, LIAO Jijia, LUO Chao, ZHAO Shengxian, ZHENG Majia, ZHONG Quan. 2022. Analysis of shale pore characteristics and controlling factors based on variation of buried depth in the Longmaxi Formation, Southern Sichuan Basin[J]. Geology in China, 49(2): 472-484. doi: 10.12029/gc20220209
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Analysis of shale pore characteristics and controlling factors based on variation of buried depth in the Longmaxi Formation, Southern Sichuan Basin
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Abstract
This paper is the result of oil and gas exploration engineering.
Objective With the maturity of exploration and development technology in shallow and medium-deep shale, deep shale has become a focus of next exploration and developmentin China. Clarifying the pore characteristics of shale under different burial depths and its controlling factors is conducive to promoting the selection and evaluation of deep shale gas.
Methods Methods such as nuclear magnetic resonance, field emission scanning electron microscopy and X-ray diffraction were used to comparatively evaluate the porosity and pore structure of Longmaxi-Formation in southern Sichuan Basin, and its influencing factors were also discussed.
Results With the increase of burial depth, the total porosity shows a downward trend, and the main porosity of shale below 3000 m, between 3000-3500 m and deeper than 3500 m are 4%-8%, 3%-7% and 3%-6%, respectively.There is no significant difference in pore types and size distribution of the Longmaxi Formation shale at different depths, and a large number of nano-scale organic pores, mineral intergranular pores, intragranular dissolved pores and micro-fractures are developed at different depth.
Conclusions A large amount of organic matter formed at high U/Th ratio and low Ti content is the key factor for the development of deep shale pores. High siliceous mineral content and high formation pressure coefficient could protect pores of shale reservoirs and slow down compaction of its overlying strata. However, excessive burial depth wouldalso lead to a reduction of shale pores and porosity.
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CHEN Yang, TANG Hongming, LIAO Jijia, LUO Chao, ZHAO Shengxian, ZHENG Majia, ZHONG Quan. 2022. Analysis of shale pore characteristics and controlling factors based on variation of buried depth in the Longmaxi Formation, Southern Sichuan Basin[J]. Geology in China, 49(2): 472-484. doi: 10.12029/gc20220209
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Figure 1.
Sedimentary characteristics and well location in Southern Sichuan Basin (modified from Ma Xinhua et al., 2018)
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Figure 2.
TOC and porosity of Longmaxi Formation from typical wells
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Figure 3.
Shale porosity distribution of Longmaxi Formation from typical wells
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Figure 4.
Relationship between porosity and depth of organic-rich shale from Longmaxi Formation in Southern Sichuan Basin
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Figure 5.
Porosity distribution of organic-rich shale from Longmaxi Formation in Southern Sichuan Basin
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Figure 6.
Shale pores diameter distribution of Longmaxi Formation at different depth
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Figure 7.
SEM images of shale pores from Longmaxi Formation under deep burial conditions
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Figure 8.
Relationship between TOC and porosity of Longmaxi Formation with different depth
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Figure 9.
Correlation between TOC and porosity and the relationship between TOC and sedimentary environment of different unit shale
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Figure 10.
Below 3500 m, the correlation between mineral content and porosity (a, b) and Porosity distribution frequency of different facies in shale(c)
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Figure 11.
Relation between pressure coefficient and buried depth(a), correlation between porosity and pressure coefficient at different depths(b, c, d)