Device and method for measuring Biot coefficient of poroelastic medium under high temperature and high pressure

An elastic medium, high temperature and high pressure technology, applied in the direction of applying stable tension/pressure to test the strength of materials, etc., can solve the problems of ignoring the influence of temperature and the occurrence of complex accidents, so as to avoid complex accidents, ensure heating safety, and meet the experimental requirements. required effect

Active Publication Date: 2015-11-18
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0004] Although this invention patent can complete the stress-seepage coupling test of rock materials, especially low-permeability rocks under complex stress paths, and automatically calculate the permeability, porosity, axial and lateral Biot coefficients of rock samples, there is no Consider the effect of temperature on test results
In fact, when a formation with a high temperature is encountered during on-site drilling construction, when the Biot coefficient obtained at normal temperature is used to calculate the effective stress of the porous medium to predict the formation pressure, there is often a large deviation from the actual situation. When it is large, it is likely to cause complex accidents

Method used

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  • Device and method for measuring Biot coefficient of poroelastic medium under high temperature and high pressure
  • Device and method for measuring Biot coefficient of poroelastic medium under high temperature and high pressure
  • Device and method for measuring Biot coefficient of poroelastic medium under high temperature and high pressure

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Embodiment 1

[0038] Example 1, such as figure 1 As shown, the device for measuring the Biot coefficient of porous elastic medium under high temperature and high pressure mentioned in the present invention is an experimental device, including an autoclave 1, a pore pressure pump system 2, a confining pressure pump system 3, a computer control system 4, a heating System 5, first vent valve 7, second vent valve 12, temperature control box 17.

[0039] One end of the hole pressure pump system 2 is connected to the computer control system 4 through the first data transmission line 9, and is controlled by the computer control system 4; the other end of the hole pressure pump system 2 passes through the heating system 5 through the first high pressure pipeline 10 Connected to the bottom of the autoclave 1 for applying pore pressure to the core in the autoclave 1;

[0040] One end of the confining pressure pump system 3 is connected with the computer control system 4 through the second data trans...

Embodiment 2

[0059] Embodiment 2: The difference from Embodiment 1 is that the above-mentioned experimental device is also used, and the method for measuring the Biot coefficient of the porous elastic medium under high temperature and high pressure mentioned in the present invention, the specific experimental steps are as follows:

[0060] (1) Prepare the core: The core standard is 25mm in diameter and 50mm in height. In order to reduce the error, it is necessary to ensure that the two ends of the core are completely parallel.

[0061] (2) The sensor system 23 is installed on the outside of the core to be tested and placed in the autoclave 1, and the temperature control box 17 is in a closed state to test the Biot coefficient at normal temperature.

[0062] (3) Turn on the confining pressure pump system 3 to fill the autoclave 1 with fluid, and use the computer control system 4 to control the confining pressure pump system 3 to apply confining pressure to the autoclave 1. When the confining...

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Abstract

The invention relates to a device and a method for measuring the Biot coefficient of a poroelastic medium under high temperature and high pressure. The experimental device comprises an autoclave, a pore pressure pump system, a confining pressure pump system, a computer control system, a heating system, a temperature control box and the like, wherein the computer control system is connected with the pore pressure pump system, the confining pressure pump system and the autoclave respectively; a first vent valve and a second vent valve are mounted on the autoclave; the other end of the confining pressure pump system is connected with the autoclave; the other end of the pore pressure pump system is connected with the autoclave; the heating system covers the outer side of the autoclave; the temperature control box is connected with inside and outside of the autoclave respectively. With the adoption of the device and the method, the problem about test of the Biot coefficient of a rock core under the high temperature condition is solved, the temperature pressure condition of the rock core in the stratum can be more really restored, and more guidance is achieved for field application. Main equipment adopted by the device is obtained through renovation based on original normal-temperature triaxial experimental equipment, so that the cost is greatly saved, and the experimental requirements can be met.

Description

technical field [0001] The present invention relates to the field of rock mechanics, in particular to a device and method for measuring the Biot coefficient of porous elastic media under high temperature and high pressure, which is used to obtain the Biot coefficient for calculating the effective stress of elastic porous media, and to finely analyze the mechanical properties of rocks under high temperature and high pressure conditions , to provide a basis for guiding the drilling and production of oil, gas and mine resources. Background technique [0002] In 1925, Terzahi first proposed the effective stress principle in soil mechanics, and Biot conducted pioneering research on the basis of it, and proposed the Biot coefficient reflecting the effective stress of poroelastic media. The Biot coefficient has become a very important characteristic parameter to describe porous media such as rocks, and is a key parameter required for hydraulic fracturing design, sand production pre...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N3/18
Inventor 韩忠英程远方黄浩勇王伟李梦来
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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