Microscopic visual experimental device for simulating fluid displacement under high-temperature and high-pressure conditions

A high-temperature, high-pressure, experimental device technology, applied in the field of micro-visualized experimental devices, can solve problems such as low repeatability, difficulty in reproducing real reservoir high-temperature and high-pressure conditions, and rocks are not easy to wash, so as to ensure service life and realize displacement pressure difference Gradient control, the effect of lowering the temperature

Active Publication Date: 2021-05-28
CHINA UNIV OF PETROLEUM (EAST CHINA)
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Problems solved by technology

However, this technology has great limitations. On the one hand, the rock will be worn during use, and the basic parameters of the rock will change with the experimental process, and the used rock is not easy to wash, and the repeatability is low; in addition, conventional microscopic flooding There are two main problems in the replacement experimental device. One is that due to the deep burial of complex oil reservoirs, high temperature and high press

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  • Microscopic visual experimental device for simulating fluid displacement under high-temperature and high-pressure conditions

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[0029]In conjunction with the accompanying drawings, a microscopic visualization experimental device for simulating fluid displacement under high temperature and high pressure conditions, including a reservoir temperature and pressure coordination control system, a displacement reaction system, a data acquisition and processing system, and an auxiliary system. The main function of the reservoir temperature-pressure coordinated control system is to simulate the formation pressure and temperature of the rock formation in the real reservoir environment. The reservoir temperature and pressure coordinated control system includes a high-pressure sealing holder 16, on which a sapphire window 23 for easy observation is set, and a reservoir confining pressure ring cavity 15 is formed inside the high-pressure sealing holder 16 . The reservoir confining pressure ring cavity 15 is connected to the shell inlet of the high temperature heating vessel 13 through the fluid heating output pipel...

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Abstract

The invention discloses a microcosmic visual experimental device for simulating fluid displacement under high-temperature and high-pressure conditions. The microcosmic visual experimental device comprises a reservoir temperature and pressure coordinated control system, a displacement reaction system, a data acquisition and processing system and an auxiliary system. A visual micro-nano scale pore throat model, namely a glass etching model, is adopted to simulate actual rock internal pore throat characteristics, and the flowing behavior of fluid in a micro-nano channel under high-temperature and high-pressure conditions is realized through the reservoir temperature and pressure coordinated control system and the displacement reaction system, the migration characteristics of the micro-fluid in a porous medium are observed in combination with the data acquisition and processing system, so that the quantification of the residual oil-water saturation in the micro-pore structure in the micro-model displacement experiment process is really realized, and the method has important guiding significance for judging the distribution and size of the oil-water saturation in the oil field reservoir development process.

Description

technical field [0001] The invention relates to the technical field of microscopic displacement, in particular to a microscopic visualization experimental device for simulating fluid displacement under high temperature and high pressure conditions. Background technique [0002] With more and more exploration and development activities in deeper and more complex formations around the world, it is becoming more and more difficult to tap the remaining oil potential under high temperature and high pressure conditions in deep formations. Especially when the oilfield enters the period of production decline in the high water-cut development stage, the mining potential target is gradually shifting from the large connected remaining oil to the highly dispersed, localized and relatively enriched areas. Due to unclear understanding of the microcosmic occurrence and distribution of remaining oil, Seriously hindered the remaining oil potential in the next step. Therefore, it is particul...

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Application Information

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IPC IPC(8): G01N33/24
CPCG01N33/24Y02E30/30
Inventor 苏玉亮李蕾张雪郝永卯王文东付金刚
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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