Quantitative characterization method of low penetration double-medium sandstone oil reservoir microscopic aperture structure
A dual medium, sandstone reservoir technology, applied in permeability/surface area analysis, measurement device, suspension and porous material analysis, etc. Insufficient integration of each other, etc.
Active Publication Date: 2013-09-04
XI'AN PETROLEUM UNIVERSITY
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In 2003, Volume 3, Issue 2, Petroleum Exploration and Development, Wang Jing et al. applied the permeability anomaly frequency analysis method to analyze the plane distribution of micro-fractures in the Yanchang Formation main oil layer in the Ordos Basin in the article "Exploration of Micro-fracture Distribution Research Method in Ultra-low Permeable Sandstone". In 2003, Vol. 3, No. 2, Petroleum Exploration and Development, Wang Fachang et al. analyzed the fracture distribution characteristics of ultra-low permeability sandstone oil layers in Baka Oilfield, Turpan-Hami Basin through core observation. Distribution characteristics of fractures in ultra-low permeability sandstone oil layers; 2004, Volume 39, Issue 1, Geological Sciences, in the article "Fractures and Seepage Characteristics of Low Permeability Sandstone Oil and Gas Reservoirs" by Zeng Lianbo, through the analysis of outcrops and cores of differe
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[0108] Below, the present invention will be described in detail by taking the A sublayer of a certain reservoir in the Yanchang Formation of the Ordos Basin as an example in conjunction with the accompanying drawings.
[0109] The quantitative characterization method for the microscopic pore structure of ultra-low permeability dual-media sandstone reservoirs includes the following steps, referring to Figure 12 :
[0110] Step 1. According to the regional geological background, sedimentary microfacies, structural location, experienced diagenesis and rock-electricity relationship, drill cores, perform sample cutting, oil washing treatment and sample distribution. The specific steps are as follows:
[0111]1. According to the existing test results of core physical properties and logging interpretation results, establish the change relationship between core analysis porosity and permeability and logging porosity and permeability as formula 1 and formula 2;
[0112] φ 岩心 =1.143×...
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The invention provides a quantitative characterization method of low penetration double-medium sandstone oil reservoir microscopic aperture structure, which comprises the following steps: selecting experiment samples, effectively combining various experiments, distributing samples, processing and analyzing experiment test data, combining macroscopic background and microscopic rock core, and combining static state analysis and dynamic production reality, thereby realizing quantitative characterization of ultra-low penetration double-medium sandstone oil reservoir microscopic aperture structure from qualitative analysis and semi-quantitative evaluation. The invention has the advantages that more comprehensive influence factors and micro crack, aperture throat parameter and nuclear magnetic resonance movable fluid parameter are considered, so the characterization result can better reflect change characteristics of ultra-low penetration double-medium sandstone oil reservoir microscopic aperture structure, which are consistent to the production exploitation real cases of the oil field, thereby effectively avoiding one-sidedness and limitation of single aspect evaluation result.
Description
technical field [0001] The invention relates to the technical field of oilfield development, in particular to a quantitative characterization method for the microscopic pore structure of an ultra-low permeability dual-media sandstone reservoir. Background technique [0002] The microscopic pore structure of dual-media sandstone reservoirs is the key factor controlling reservoir quality and development effect, and is one of the core issues in the efficient development of ultra-low permeability reservoirs, mainly including pore throat types, pore-throat matching relationships, and pore-throat changes. characteristics and the degree of development of microcracks. [0003] Fracture research methods mainly include core observation method, in-situ stress analysis method, modern well test analysis and logging interpretation method, and production dynamic analysis method. In 2003, Volume 3, Issue 2, Petroleum Exploration and Development, Wang Jing et al. applied the permeability an...
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Inventor 高辉李天太王雅楠
Owner XI'AN PETROLEUM UNIVERSITY
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