Impacts of Pore Structure on the Occurrence of Free Oil in Lacustrine Shale Pore Networks
Author:
You Fuliang12ORCID, Liu Guangdi12, Sun Mingliang12, An Cheng12, Li Chaozheng3, Li Yishu12
Affiliation:
1. College of Geosciences, China University of Petroleum, Beijing 102249, China 2. State Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum, Beijing 102249, China 3. Research Institute of Petroleum Exploration and Development, PetroChina, Beijing 100083, China
Abstract
The ultimate recovery of shale oil is mostly dependent upon the occurrence and content of free oil within the nano-scaled pore network of shale reservoirs. Due to the nanoporous nature of shale, quantitatively characterizing the occurrence and content of free oil in shale is a formidable undertaking. To tackle this challenge, 12 lacustrine shale samples with diverse organic matter content from the Chang7 Member in the southern Ordos Basin were selected, and the characteristics of free oil occurrence were indirectly characterized by comparing changes in pore structure before and after organic solvent extraction. The free oil enrichment in shale was assessed using the oil saturation index (OSI), corrected oil saturation index (OSIcorr), and percentage of saturated hydrocarbons. The results revealed that slit-like interparticle pores with diameters less than 30 nm are dominant in the Chang7 shale. Conceptual models for the pore structures containing free oil were established for shale with total organic carbon (TOC) content less than 9% and greater than 9%, respectively. Shale samples with TOC content less than 9% exhibit a well-developed pore network characterized by relatively larger pore volume, surface area, and heterogeneity. Conversely, shale samples with TOC content exceeding 9% display a less developed pore network characterized by relatively smaller pore volume, surface area, and heterogeneity. Larger pore volume and lower organic matter abundance favor the enrichment of free oil within the lacustrine shale pore network. This study may have significant implications for understanding oil transport in shales.
Funder
China National Petroleum Corporation–China University of Petroleum (Beijing) strategic cooperation science and technology project
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference97 articles.
1. Petrophysical analysis and mudstone lithofacies classification of the HRZ shale, North Slope, Alaska;Williams;J. Petrol. Sci. Eng.,2022 2. Reservoir formation conditions and key technologies for exploration and development in Qingcheng large oilfield;Fu;Petrol. Res.,2020 3. Differences and origins of hydrocarbon generation characteristics between mudstone and shale in the Seventh Member of the Yanchang Formation, Ordos Basin, China;Zheng;Int. J. Coal Geol.,2022 4. Shale Resource Systems for Oil and Gas Part 2: Shale-oil Resource Systems;Jarvie;Shale Reservoirs—Giant Resources for the 21st Century: AAPG Memoir,2012 5. Larter, S., Huang, H., Bennett, B., and Snowdon, L. (November, January 30). What Don’t We Know About Self Sourced Oil Reservoirs: Challenges and Potential Solutions. Proceedings of the SPE Canadian Unconventional Resources Conference, Calgary, AB, Canada.
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