Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs

Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs

The global mobility theory was used to evaluate the experimental results of oil displacement with water of different salinities. The results of scanning electron microscopy, X diffraction of clay minerals, nonlinear seepage and nuclear magnetic resonance experiments and particle migration inhibition...

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Main Authors: Lei WANG, Hui ZHANG, Xiaodong PENG, Panrong WANG, Nan ZHAO, Shasha CHU, Xinguang WANG, Linghui KONG
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2019-12-01
Series:Petroleum Exploration and Development
Online Access:http://www.sciencedirect.com/science/article/pii/S1876380419602752
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spelling doaj-0320cda0b3374a659253c08ae6804fae2021-02-02T07:02:04ZengKeAi Communications Co., Ltd.Petroleum Exploration and Development1876-38042019-12-0146612181230Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirsLei WANG0Hui ZHANG1Xiaodong PENG2Panrong WANG3Nan ZHAO4Shasha CHU5Xinguang WANG6Linghui KONG7China National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, China; Corresponding authorChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaResearch Institute of Petroleum Exploration & Development, PetroChina, Beijing 100083, ChinaChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaChina National Offshore Oil Corporation (China) LTD. (Zhanjiang Branch), Zhanjiang 524057, ChinaThe global mobility theory was used to evaluate the experimental results of oil displacement with water of different salinities. The results of scanning electron microscopy, X diffraction of clay minerals, nonlinear seepage and nuclear magnetic resonance experiments and particle migration inhibition experiments before and after water flooding were compared to determine the mechanisms of water sensitive damage and enhanced water flooding mechanism of low permeability sandy conglomerate reservoirs in Wushi region of Beibuwan Basin, China. A production equation of the oil-water two phase flow well considering low-speed non-Darcy seepage and reservoir stress sensitivity was established to evaluate the effect of changes in reservoir properties and oil-water two-phase seepage capacity on reservoir productivity quantitatively, and injection water source suitable for the low permeability sandy conglomerate reservoirs in Wushi region was selected according to dynamic compatibility experimental results of different types of injected water. The seepage capacity of reservoir is the strongest when the injected water is formation water of 2 times salinity. The water-sensitive damage mechanisms of the reservoirs in Wushi region include hydration of clay minerals and particle migration. By increasing the content of cations (especially K+ and Mg2+) in the injected water, the water-sensitive damage of the reservoir can be effectively inhibited. The formation water of Weizhou Formation can be used as the injection water source of low permeability sandy conglomerate reservoirs in the Wushi region. Key words: Beibuwan Basin, low permeability reservoir, sandy conglomerate reservoir, water-sensitive damage, enhanced water flooding, effective driving coefficient, global mobility, water floodinghttp://www.sciencedirect.com/science/article/pii/S1876380419602752
collection DOAJ
language English
format Article
sources DOAJ
author Lei WANG
Hui ZHANG
Xiaodong PENG
Panrong WANG
Nan ZHAO
Shasha CHU
Xinguang WANG
Linghui KONG
spellingShingle Lei WANG
Hui ZHANG
Xiaodong PENG
Panrong WANG
Nan ZHAO
Shasha CHU
Xinguang WANG
Linghui KONG
Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
Petroleum Exploration and Development
author_facet Lei WANG
Hui ZHANG
Xiaodong PENG
Panrong WANG
Nan ZHAO
Shasha CHU
Xinguang WANG
Linghui KONG
author_sort Lei WANG
title Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
title_short Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
title_full Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
title_fullStr Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
title_full_unstemmed Water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
title_sort water-sensitive damage mechanism and the injection water source optimization of low permeability sandy conglomerate reservoirs
publisher KeAi Communications Co., Ltd.
series Petroleum Exploration and Development
issn 1876-3804
publishDate 2019-12-01
description The global mobility theory was used to evaluate the experimental results of oil displacement with water of different salinities. The results of scanning electron microscopy, X diffraction of clay minerals, nonlinear seepage and nuclear magnetic resonance experiments and particle migration inhibition experiments before and after water flooding were compared to determine the mechanisms of water sensitive damage and enhanced water flooding mechanism of low permeability sandy conglomerate reservoirs in Wushi region of Beibuwan Basin, China. A production equation of the oil-water two phase flow well considering low-speed non-Darcy seepage and reservoir stress sensitivity was established to evaluate the effect of changes in reservoir properties and oil-water two-phase seepage capacity on reservoir productivity quantitatively, and injection water source suitable for the low permeability sandy conglomerate reservoirs in Wushi region was selected according to dynamic compatibility experimental results of different types of injected water. The seepage capacity of reservoir is the strongest when the injected water is formation water of 2 times salinity. The water-sensitive damage mechanisms of the reservoirs in Wushi region include hydration of clay minerals and particle migration. By increasing the content of cations (especially K+ and Mg2+) in the injected water, the water-sensitive damage of the reservoir can be effectively inhibited. The formation water of Weizhou Formation can be used as the injection water source of low permeability sandy conglomerate reservoirs in the Wushi region. Key words: Beibuwan Basin, low permeability reservoir, sandy conglomerate reservoir, water-sensitive damage, enhanced water flooding, effective driving coefficient, global mobility, water flooding
url http://www.sciencedirect.com/science/article/pii/S1876380419602752
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