Physical simulation experiment method and experiment device for evaluating matching relation of chemical oil-displacing agent and reservoir permeability

A technology of chemical flooding and matching relationship, applied in the field of serial microporous membrane flow experimental devices, can solve the problems of low experimental accuracy, inaccuracy and incompleteness, and achieve scientific experimental principles, accurate seepage conditions, and design principles. effect of science

Active Publication Date: 2014-08-27
SOUTHWEST PETROLEUM UNIV
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  • Application Information

AI Technical Summary

Problems solved by technology

This experimental method can preliminarily and quickly judge the hydrodynamic size of a polymer, but it has the following disadvantages: 1. Because the polymer hydration molecules are viscoelastic, they will deform under pressure, so the flow rate is used as the main technical index to judge Whether the polymer can pass through the specific pore throat is not accurate and comprehensive. More importantly, because the relationship between the pore size of the microporous membrane and the permeability of the reservoir has not been established, the experimental results are insufficient for the application of the oil displacement agent in the actual reservoir. Guiding significance; 2. Use a nitrogen cylinder to provide pressure, use a pressure reducing valve to adjust the required pressure, and use a stopwatch to record the outflow time of the effluent. The accuracy of the experiment is not high, and the amount of data is small, so it is difficult to analyze the dynamic flow experiment of the oil displacement agent. Features; 3. The experimental device can only achieve single-stage filtration, but not multi-stage filtration. Therefore, the compatibility between the polymer solution and the microporous membrane can be preliminarily judged, and the conductivity of the injected fluid cannot be judged through dynamic analysis, which cannot be determined. Whether the oil displacement agent can advance uniformly in the formation; 4. This experimental method does not consider the intermolecular interaction, so it is only suitable for the study of polyacrylamide without intermolecular interaction, and is not suitable for the study of new types of flooding with supramolecular structure. oil agent

Method used

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  • Physical simulation experiment method and experiment device for evaluating matching relation of chemical oil-displacing agent and reservoir permeability
  • Physical simulation experiment method and experiment device for evaluating matching relation of chemical oil-displacing agent and reservoir permeability
  • Physical simulation experiment method and experiment device for evaluating matching relation of chemical oil-displacing agent and reservoir permeability

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Experimental program
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Effect test

Embodiment 1

[0039] Embodiment 1 Relation between microporous membrane pore throat diameter and permeability

[0040] Let the particle size of monodisperse glass beads be D, and the pore throat diameter of the porous medium obtained by filling monodisperse glass beads is dm. The relationship between porosity and particle size, different packing methods of glass beads correspond to different pore throat diameters. Find the relationship between the particle size and the maximum and minimum values ​​of the pore throat diameter, and then find the relationship between the permeability and the pore throat diameter, draw a graph with the vertical axis of the permeability and the abscissa diameter of the pore throat, and perform linear fitting on the linear increase stage to obtain The relationship between the two parameters can be extrapolated to obtain the pore throat diameter at lower permeability. The measured data of the physical model parameters of glass microsphere filling are shown in Tab...

Embodiment 2

[0060] Embodiment 2 microscope scanning nuclear pore membrane

[0061] Scanning the nuclear pore membrane with a microscope, from figure 1 It can be seen that the number of holes is 109 and the occupied area is 7.473×10 -4 mm 2 , porosity 16.55%, from figure 2 It can be seen that the number of holes is 116 and the occupied area is 7.482×10 -4 mm 2 , The porosity rate is 16.57%. Therefore, it can be seen that the pore size of the nuclear pore membrane and the distribution of pores on the membrane are relatively uniform, which ensures the repeatability and reliability of the data.

Embodiment 3

[0062] Example 3 HPAM solution series flow experiment——determining the relationship between HPAM and reservoir permeability

[0063] In the present invention, the flow chart of the series microporous membrane flow experiment device is as follows Figure 4 As shown, the specific experimental process is as follows:

[0064] 1. Close the inlet valve (103) of the experimental device, turn on the oil-free air compressor (100), adjust the pressure regulating switch to stabilize the output pressure of the compressor at the set value; open the pressure stabilizing buffer container (101), and adjust the required Pressure value; Or close the experimental device inlet valve (106), open the experimental device inlet valve (104), open the constant flow pump (102), adjust the switch to make the output flow at the set value;

[0065] 2. Connect the pressure transducers (110, 111, 112) and the effluent quality data collector (116); turn on the computer (117), start the pressure and quality ac...

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PUM

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Abstract

The invention discloses a physical simulation experiment method and a series micropore filter membrane flow experiment device for evaluating the matching relation of a chemical oil-displacing agent and the reservoir permeability. The series micropore filter membrane flow experiment device comprises a pressure difference control and measurement assembly, a module combined type series filter membrane unit assembly and a data real-time collecting and processing assembly. The pressure difference control and measurement assembly comprises an air oil-less compressor, a stabilized pressure pump and a pressure sensor. The module combined type series filter membrane unit assembly comprises a liquid storage device and a micropore filter membrane mounting device. The data real-time collecting and processing assembly comprises a balance and a weight and pressure measuring software system, wherein the balance and the weight and pressure measuring software system are connected with a computer. The weight and pressure measuring software system is used for recording the size of pressure and the mass of flow-out liquid and collecting data. The micropore filter membrane mounting device is used for mounting micropore filter membranes with the diameters of 47 mm. The pressure difference control and measurement assembly, the module combined type series filter membrane unit assembly and the data real-time collecting and processing assembly are connected through hoses and are used for controlling series experiments through valves.

Description

technical field [0001] The invention belongs to the technical field of enhanced oil recovery by chemical flooding, and relates to a physical simulation experiment method for evaluating the matching relationship between a chemical flooding agent and reservoir permeability and a matching series microporous membrane flow experiment device. technical background [0002] Chemical flooding technology is an important method to enhance oil recovery, including polymer flooding and composite chemical flooding. Injection capacity is one of the main performance indicators of chemical oil displacement agents. Good injection performance can make chemical oil displacement agents advance evenly in layers with large differences in reservoir conditions in the same layer system, improve sweep efficiency, and thus increase oil recovery. yield. The rock pore space of the reservoir is mainly composed of pores and throats. The size of the throats controls the permeability of the reservoir rocks. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B43/22
Inventor 冯茹森郭拥军胡俊嵇薇唐昊高飞龙张新民
Owner SOUTHWEST PETROLEUM UNIV
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