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摘要? 脆性對深層巖體工程和資源開發(fā)利用,，特別是非常規(guī)油氣資源開發(fā)具有重要意義,。本文從脆性的內(nèi)涵和影響因素入手，總結(jié)分析了脆性評價和預(yù)測的基本原理及研究進(jìn)展,。巖石的巖性組分,、層理和損傷等結(jié)構(gòu)特征、孔隙流體及其賦存狀態(tài),、圍壓,、溫度、巖體測量尺度以及受力過程等都會對脆性有影響,。高脆性非常規(guī)油氣儲層具有脆性礦物含量高,、楊氏模量大,、破裂前總應(yīng)變小,、應(yīng)力—應(yīng)變曲線峰前階段耗散能以及峰后階段斷裂能小、低延性,、內(nèi)摩擦角大,、破裂后易形成復(fù)雜縫網(wǎng)系統(tǒng)的特征。非常規(guī)油氣儲層脆性研究應(yīng)該重點(diǎn)關(guān)注地層的可壓性和形成復(fù)雜縫網(wǎng)系統(tǒng)的能力,。按照評價資料類型,，脆性評價主要有力學(xué)試驗(yàn)評價和基于測鉆井資料評價兩種方法，脆性預(yù)測主要通過疊前地震反演,。脆性各向異性及主控因素研究有利于不同類型非常規(guī)儲層評價預(yù) 測方法的優(yōu)選和改進(jìn),。不同資料脆性研究思路和方法不同，適用性也有差異,，多資料多方法相互融合,、相互驗(yàn) 證是未來重要發(fā)展方向。人工智能包括機(jī)器學(xué)習(xí)等算法可以有機(jī)融合多元數(shù)據(jù),，充分挖掘有效信息,，具有更加高效精確的優(yōu)勢，在非線性多因素控制的脆性研究中,，發(fā)展?jié)摿^大,。

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關(guān)鍵詞 ：非常規(guī)油氣儲層,；脆性影響因素,；脆性評價方法；脆性預(yù)測方法,；脆性研究進(jìn)展

Abstract：

Brittleness is of great significance for deep rock engineering and resource development, especially for unconventional oil and gas resources. Brittleness evaluation, fundamental principles of its prediction and research progress are summarized and analyzed. The structural characteristics of rock such as lithologic composition, bedding and damage, pore fluid and its occurrence characteristics, confining pressure, temperature, rock mass measurement scale, and stress path all impact brittleness. High brittleness unconventional reservoirs are characterized by a high content of brittle minerals, high Young's modulus, small total strain before fracture, dissipated energy in the pre-peak stage of the stress-strain curve, little fracture energy in the post-peak stage, low ductility, large internal friction angle and easy formation of complex fracture network systems in hydraulic fracturing. Unconventional reservoir brittleness research should focus on the formation frangibility and the ability to form complex fracture network systems. According to the types of data, brittleness evaluation methods mainly include mechanical experiment evalua tion and evaluation based on logging and drilling data. Brittleness prediction is mainly based on prestack seismic inversion. The study of brittleness anisotropy and controlling factors help optimize and improve evaluation and prediction methods for different types of unconventional reservoirs. Due to the different research ideas and data sources, the applicability of different methods is also different. The integration and mutual verification of multiple data and methods is an important future development direction. Artificial intelligence, including machine learning algorithms, can organically integrate multiple data, collate effective information, and has the advantage of being more efficient and accurate. Artificial intelligence is promising in geological research controlled by multiple nonlinear factors such as reservoir brittleness.

Key words： unconventional reservoir; factors affecting brittleness; brittleness evaluation method; brittleness prediction method; progress in brittleness research

收稿日期: 2021-03-31 ????

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基金資助:國家自然科學(xué)基金委員會—中石化聯(lián)合基金“頁巖油氣甜點(diǎn)預(yù)測的儲層地質(zhì)力學(xué)基礎(chǔ)理論研究”(U1663203) 資助

通訊作者: [email protected]

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CAO Dongsheng, ZENG Lianbo, LYU Wenya, XU Xiang, TIAN He. Progress in brittleness evaluation and prediction methods in unconventional reservoirs. Petroleum Science Bulletin, 2021, 01: 31-45.

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