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Self-support fracture testing and analyzing device and method for oil-gas field development

A test analysis, self-supporting technology, applied in the direction of mining fluid, earthwork drilling, wellbore/well components, etc., can solve the problems of increased pressure loss, increased error of experimental data, and no experimental equipment and methods for fluid flow analysis. , to reduce the error and improve the accuracy

Active Publication Date: 2012-10-24
SOUTHWEST PETROLEUM UNIV
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Problems solved by technology

[0004] (1) Using a single-sided triangular press knife to create a seam may cause the direction of the artificial fracture to deviate, resulting in an increase in the pressure loss of the experimental test and a large increase in the error of the experimental data;
[0005] (2) The size of the diversion chamber is fixed, and the processing requirements for rock samples are extremely high;
[0006] (3) The pretreatment process of different working fluids cannot be simulated;
[0007] (4) There are no special experimental equipment and methods for the analysis of fluid flow patterns in self-supporting fractures

Method used

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Embodiment Construction

[0029] Further illustrate the present invention according to accompanying drawing below.

[0030] see figure 1 , figure 2 , image 3 .

[0031] Self-supporting fracture testing and analysis device for oil and gas field development, mainly composed of liquid storage tank 1, advection pump 2, pretreatment working liquid tank 3, pipeline electric heating jacket 4, inlet temperature sensor 5, inverted mold liquid tank 6, diversion chamber 8. Displacement sensor 9, hydraulic press 11, seam maker 12, pouring liquid outlet 16, outlet temperature sensor 17, back pressure controller 18, vacuum buffer container 19, vacuum pump 20, collection liquid bottle 21, balance 22, data acquisition and Control board 23, computer 24 form.

[0032] The inside of the diversion chamber 8 has deep holes for inserting electric heating rods 14, temperature sensors 15, and differential pressure sensors 10; two slabs 28 are installed in the cavity of the diversion chamber, and there is a wall between ...

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Abstract

The invention relates to a self-support fracture testing and analyzing device and method for oil-gas field development. The device is mainly composed of a fluid storage tank, an advection pump, a pretreated working fluid tank, a reverse mold fluid tank, a flow conduction chamber, a displacement sensor, a hydraulic press, a fracture maker, a back-pressure controller, a collected fluid bottle, a data acquisition and control board and a computer. The method comprises the following steps: naturally breaking a rock core into two rock plates; putting the rock plates into the inner cavity of the flow conduction chamber to form a self-support in-fracture fluid flow region; applying an initial pressure so that the in-fracture fluid flow region is fully filled with the testing fluid; pretreating the in-fracture fluid flow region; starting the computer, inputting experimental parameters, and injecting the testing fluid; acquiring self-support fracture flow conductivity; treating the in-fracture fluid flow region again; and driving the reverse mold fluid into the flow conduction chamber to form a reverse mold casting. The invention can simulate the actual situation of the self-support fracture to acquire accurate flow conductivity test data, and can also acquire the flow form of the self-support in-fracture fluid.

Description

technical field [0001] The invention relates to a self-supporting fracture testing and analyzing device and method for oil and gas field development. Background technique [0002] In the process of fracturing, the reservoir rock is stretched and damaged and shear slips, and the fractures that are uneven and cannot be completely closed are self-supporting fractures. The fracturing construction that forms self-supporting fractures does not require the use of proppant and jelly fracturing fluid, which greatly reduces the damage to the reservoir. The test and analysis of self-supporting fractures directly affects the optimization of fracturing construction parameters. However, domestic related research is still in its infancy. Therefore, it is more necessary and urgent to form a self-supporting fracture testing and analysis device and method that truly simulates reservoir conditions. [0003] The current test and analysis devices and methods for simulating self-supporting cra...

Claims

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Application Information

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IPC IPC(8): E21B49/00E21B43/26
Inventor 郭建春苟兴豪卢聪刘超陈迟
Owner SOUTHWEST PETROLEUM UNIV
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