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Movement track tracking method of proppant in seam under experimental condition of high particle concentration

A technology of particle concentration and experimental conditions, which is applied in earthwork drilling, computer components, wellbore/well components, etc., can solve problems such as difficult to realize proppant particle tracking, particle loss, loss of flow field information, etc., and achieve particle Trajectory tracking and speed calculation, easy identification, contrast enhancement effect

Active Publication Date: 2019-12-13
SOUTHWEST PETROLEUM UNIV
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Problems solved by technology

[0003] Most of the existing methods for studying the migration of proppant particles use large-scale physical model experiments to qualitatively study macroscopic phenomena such as proppant laying patterns, but do not test and analyze the migration state of proppant during the experiment. Migration mechanism to fully analyze proppant migration
The particle tracking technology has been applied in various multiphase flow fluid experiments, among which the PIV and PTV methods are more widely used, but its scope of application is the flow field test under the condition of low concentration particles less than 8%, while In the actual production process, the proppant concentration is mostly 20%-40%, which is much higher than the measurement range of the two technologies. It is difficult to identify and track proppant particles directly by particle image velocimetry
Under the condition of high concentration (concentration greater than or equal to 15%), the interaction between proppant particles is enhanced, which will cause particle occlusion during tracking, and the tracking process of proppant particles will have a serious impact, thus causing particles to appear during the identification process Lost, a large amount of flow field information is lost, and it is difficult to track proppant particles under high concentration conditions

Method used

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  • Movement track tracking method of proppant in seam under experimental condition of high particle concentration
  • Movement track tracking method of proppant in seam under experimental condition of high particle concentration
  • Movement track tracking method of proppant in seam under experimental condition of high particle concentration

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Embodiment Construction

[0060] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0061] A method for tracking proppant motion trajectory in fractures under experimental conditions of high particle concentration, comprising the following steps:

[0062] S1: Make dyed proppant, treat it as tracer particles, specifically include the following sub-steps: S11: Determine the amount of proppant particles to be dyed according to the experimental proppant concentration and liquid volume, and control the total amount of dyed proppant at 5% of the total amount of proppant particles; S12: Wash the proppant to be dyed with clean water, and dry it for later use after cleaning; S13: Mix the cleaned proppant with the dye and fully stir and dye it. Among them, the dyeing concentration Control at 25%; S14: put the dyed proppant particles into an oven, and dry at 70°C for 12 hours; S15: Take out the dried proppant, soak it in water after preliminary c...

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Abstract

The invention discloses a movement track tracking method of a proppant in a seam under an experimental condition of high particle concentration. The movement track tracking method comprises the following steps of S1, making a dye proppant and taking the dye proppant as a tracer particle; S2, evenly mixing a certain proportion of the dye proppant with a conventional proppant, and then configuring sand carrying liquid to carry out a physical simulation experiment of proppant transportation; S3, obtaining a moving state of tracer particles during the experiment by using a high-speed camera, and using an image processing software to capture video images at fixed time intervals; S4, coloring the tracer particles of the proppant twice, and using a computer program to identify the tracer particles in the captured images; and S5, using the computer program to calculate the velocity and track the track of identified tracer particles. According to the movement track tracking method, a migrationtrack of the proppant particles under a high concentration condition can be accurately identified and tracked, all proppant migration mechanisms in the process of hydraulic fracturing are convenient to be studied, and the movement track tracking method has great significance for guiding hydraulic fracturing construction.

Description

technical field [0001] The invention relates to the technical field of proppant delivery experiments in hydraulic fracturing physical simulation experiments, in particular to a method for tracking proppant movement tracks in fractures under high particle concentration experimental conditions. Background technique [0002] Hydraulic fracturing is a necessary means for the development of unconventional oil and gas (tight gas, shale gas). Its principle is to use high-pressure pumps to pump fracturing fluid into the formation, and when the fracture pressure of the formation is exceeded, the oil and gas reservoir will be opened to release the oil and gas. Oil and gas production capacity, to achieve the effect of increasing production, and improve oil and gas recovery. After the reservoir is opened, proppant particles will be injected into the formation to keep the opened fractures at a certain degree of opening when the pump is shut down on the ground, so that the formation maint...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B47/11E21B43/267G06T7/246G06T7/90G06K9/62
CPCE21B43/267G06T7/246G06T7/90G06F18/22
Inventor 郭建春杨若愚张涛孙堃穆轲凡曾先进
Owner SOUTHWEST PETROLEUM UNIV
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