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摘要? 針對杏子川超低滲儲層孔喉結(jié)構(gòu)復雜,，尺寸細小,，微觀非均質(zhì)性強,，導致注水開發(fā)效果差這一問題，開展了核磁共振測試下水驅(qū)油實驗,，研究了相同注入體積倍數(shù)下不同物性參數(shù)的巖芯樣品T2 弛豫時間的變化,，根據(jù)核磁共振的基本原理，較大孔隙對應(yīng)的T2 弛豫時間較長,，較小孔隙對應(yīng)的T2 弛豫時間較短,，T2 弛豫時間譜在油層物理上的含義為巖芯中不同大小的孔隙占總孔隙的比例，結(jié)合油層物理球形孔隙及毛管束模型,，對實驗所得T2 弛豫時間和試驗樣品孔隙半徑進行了轉(zhuǎn)換,，得到巖芯樣品孔隙半徑分布及水驅(qū)后含油飽和度的變化，實驗結(jié)果表明：#1,、#2 和#3 號樣品在 4.0 PV時的驅(qū)替效率分別為 62.09%,、57.41%和 72.85%，其中#3 號樣品的物性參數(shù)明顯不如#1 號樣品,，但是#3 號樣品的驅(qū)油效率卻最高,，剩余油飽和度最低。因此對于超低滲儲層,，并不是孔隙度、滲透率越高,，驅(qū)替效率越高,，巖石的孔隙度、滲透率和驅(qū)油效率不存在正相關(guān)關(guān)系,；在核磁共振水驅(qū)實驗的基礎(chǔ)上,，結(jié)合恒速壓汞實驗，開展特低滲儲層微觀孔喉特征參數(shù)分析,，研究平均孔隙半徑,、平均孔喉比、平均喉道半徑等孔喉特征參數(shù)對水驅(qū)油規(guī)律的影響,，實驗結(jié)果表明：三塊試驗樣品的平均孔隙半徑大小最大相差小于 3%,，因此平均孔隙半徑不是影響驅(qū)油效率的主要微觀參數(shù)。驅(qū)油效率主要受平均喉道半徑,、平均孔喉比這兩個微觀參數(shù)綜合影響,，因為整個巖石孔隙網(wǎng)絡(luò)的互相連通是依靠喉道貫穿完成的，喉道對滲透率起主要的控制作用,，它是表征儲層滲流能力的最重要參數(shù),，對于親水油藏，毛管力為動力,，平均喉道半徑越小,，小喉道所占的比例越大,，毛管力的動力作用更強，滲吸作用越明顯,，對驅(qū)油效率的貢獻越大,；孔喉比是表征儲層非均質(zhì)性的主要微觀參數(shù)，平均孔喉比越大,，非均質(zhì)性越強,，儲層滲流阻力越大，驅(qū)油效率越低,。因此,，對于超低滲儲層，認識清楚儲層孔喉特征參數(shù)分布,，發(fā)揮滲吸與驅(qū)替協(xié)同作用,，調(diào)整注水參數(shù)，降低非均質(zhì)性對滲流場的影響,，是進一步提高水驅(qū)開發(fā)效果的關(guān)鍵,。

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關(guān)鍵詞 ：恒速壓汞,；孔喉特征；核磁共振,；水驅(qū)油特征,；平均喉道半徑

Abstract：

The pore throat structure of the Xingzichuan ultra-low permeability reservoir is complex, the size is small, and the micro-heterogeneity is strong, which leads to poor water injection. In order to solve this problem, water flooding experiments were carried out using nuclear magnetic resonance (NMR), and the variation of T2 relaxation time of core samples with different physical parameters under the same injection volume multiple. The T2 relaxation time corresponding to long and small pores is relatively short. The physical meaning of the T2 relaxation time spectrum in reservoir physics is the proportion of pores with different sizes in the total pores in the core. Combining with the physical spherical pore and capillary bundle model, the T2 relaxation time obtained from the experiment is converted to the half diameter of pores in the test sample, and the pore radius distribution of the core sample and the change of oil saturation after water flooding are obtained. The experimental results show that: the displacement efficiency of No.1, No.2 and No.3 samples at 4.0 PV are 62.1%, 57.4% and 72.8%, respectively. Among them, the displacement efficiency of the No.3 sample is the highest and the remaining oil saturation is the lowest. Therefore, for ultra-low permeability reservoirs, it is not that the higher the porosity and permeability, the higher the displacement efficiency, and there is no positive correlation between the porosity, permeability and oil displacement efficiency of rocks; on the basis of the nuclear magnetic resonance water drive experiment, combined with constant velocity mercury injection. The micro-pore throat characteristic parameters of an ultra-low permeability reservoir are analyzed, and the average pore radius, average pore throat ratio and average throat radius are studied. The experimental results show that the maximum difference of the average pore radius of three test samples is less than 3%, so the average pore radius is not the main micro parameter affecting oil displacement efficiency. The oil displacement efficiency is mainly affected by the average throat radius and average pore throat ratio. For hydrophilic reservoirs, capillary force is the driving force. The smaller the average throat radius is, the larger the proportion of small throats is. The dynamic effect of capillary force is stronger, the imbibition effect is more obvious, and the higher the oil displacement efficiency, the larger the average pore throat ratio is, the stronger the heterogeneity is, the greater the seepage resistance of reservoir is, and the lower the oil displacement efficiency is. Therefore, for ultra-low permeability reservoirs, the key to further improve the effect of water drive development is to understand the distribution of pore throat characteristic parameters, optimize the synergistic effect of imbibition and displacement, adjust water injection parameters and reduce the influence of heterogeneity on the seepage field.

Key words： constant rate mercury injection; pore throat characteristics; nuclear magnetic resonance; water flooding characteristics; average throat radius

收稿日期: 2020-12-30 ????

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基金資助:國家自然科學基金項目“多段壓裂水平井示蹤劑單井吞吐運移機理及縫網(wǎng)識別方法”(51674271)、陜西省科技統(tǒng)籌創(chuàng)新工程計劃項目《延
長難采儲量有效動用開發(fā)技術(shù)研究》(2016KTCL01-12) 聯(lián)合資助

通訊作者: [email protected]

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DANG Hailong, JIANG Hanqiao, WANG Xiaofeng, ZHAO Xisen, CUI Pengxing, Hou Binchi. The influence of pore throat characteristics of the Xingzichuan ultra-low permeability reservoir on water flooding mechanisms. Petroleum Science Bulletin, 2020, 04: 541-548.

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