Three-dimensional simulation test device for oil extraction by injecting multielement hot fluid

A multi-component thermal fluid and simulation test technology, which is applied in the field of three-dimensional simulation test equipment for multi-component thermal fluid injection in reservoirs, can solve the problems of no configuration, cumbersome operation process, and steam channeling after injection, and achieve the effect of reducing work intensity

Active Publication Date: 2010-09-01
PETROCHINA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The results of the novelty search show that the existing test equipment for the research on multi-component thermal fluid EOR still has the following deficiencies: 1) It does not have the ability to carry out multi-component thermal fluid displacement research; 2) It does not have the ability to carry out long horizontal well sections 3) The reservoir pressure values ​​that can be simulated by existing test devices are generally low, and the overburden pressure method is mostly used, which is not suitable for steam injection oil recovery research (steam overlay); 4) due to the use of gas As a confining pressure medium, it is technically difficult in terms of safety and control. Most of the existing test devices in China use liquid as the confining pressure medium, resulting in cumbersome operation processes; 5) The data acquisition channel is limited and cannot meet the needs of simultaneous multi-point measurement; 6) The degree of automatic control of the system is relatively low; 7) The existing test data online and post-processing functions can no longer meet the research needs, such as graphic interpolation algorithm, 3D image analysis and processing functions, etc.; 8) The produced fluid of heavy oil reservoirs lacks effective automatic means of collection
[0010] 3) The thermal insulation method of the model in the prior art is relatively complicated. Since the confining pressure filling medium is liquid, the outer layer of the model cannot use conventional thermal insulation cotton, but a vacuum insulation method is required, and

Method used

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  • Three-dimensional simulation test device for oil extraction by injecting multielement hot fluid
  • Three-dimensional simulation test device for oil extraction by injecting multielement hot fluid
  • Three-dimensional simulation test device for oil extraction by injecting multielement hot fluid

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0078] When carrying out the solvent-assisted steam oil recovery test, the water stored in the deionized water container 1 enters the steam generator group 3 through the constant speed and constant pressure pump group 2, and the steam generated reaches the steam required for the test after passing through the steam dryness monitor 4 At the same time, water is injected into the non-suspended chemical agent container group 7 through the constant speed and constant pressure pump group 2, and the test solvent stored in the non-suspended chemical agent container group 7 is displaced by water; After being mixed in the pipeline, it is injected into the model body 15; the model body 15 filled with sand and oil is fixed in the hyperbaric chamber 14, and the outer layer of the model body is wrapped with an insulating layer 16; the gas is pressurized by the gas compressor 18 and then injected into the hyperbaric chamber 14, through the opening and closing control of the injection pneumati...

Embodiment 2

[0080] When the gas-assisted steam oil recovery test is carried out, the water stored in the deionized water container 1 enters the steam generator group 3 through the constant speed and constant pressure pump group 2, and the steam generated reaches the steam required for the test after passing through the steam dryness monitor 4 Dryness; the gas reaches the injection pressure after the gas booster 10 and the gas pressure regulating valve 11, and the gas injection flow rate is set by the gas flow measurement and control device 12; the steam and the gas are mixed in the pipeline and then injected into the model body 15; filled with The model body 15 of sand and oil is fixedly placed in the hyperbaric chamber 14, and the outer layer of the model body is wrapped with an insulating layer 16; the gas is injected into the hyperbaric chamber 14 after being pressurized by the gas compressor 18, and injected through the pneumatic valve group 19 and The opening and closing control of th...

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Abstract

The invention relates a three-dimensional simulation test device for oil extraction by injecting multielement hot fluid. The device consists of a multielement injection system, a model system, a data acquisition process and control system, and a production system, wherein a model body is fixed in a hyperbaric chamber; and the hyperbaric chamber is connected with the multielement injection system,the data acquisition process and control system, and the production system. As medium can be replaced by separately or simultaneously injecting the multielement hot fluid, and gases are taken as ambient pressure packing medium for the model, the work intensity during the processes of charging and discharging the ambient pressure packing medium is greatly lowered; and as the stimulated reservoir pressure reaches 20 MPa, and the simulated reservoir temperature reaches 350 DEG C, the real-time data acquisition and processing can be realized at the channel temperature of 460 DEG C and under the channel pressure of 50 MPa, and the data acquisition channel can be enlarged. The three-dimensional simulation test device for the oil extraction by injecting the multielement hot fluid has the advantages of fully-automated control of test processes, namely injection, extraction and strata pressure/temperature simulation, online three-dimensional graphic visual analysis and processing of test data,automatic collection of extraction liquid, and oil-water centrifugal separation.

Description

Technical field: [0001] The invention relates to a three-dimensional simulation test device for oil recovery injected with multiple thermal fluids in an oil reservoir. Background technique [0002] Three-dimensional simulation test is an important means for the research and development of enhanced oil recovery technology. With the continuous introduction of new concepts of enhanced oil recovery, new requirements are put forward for the three-dimensional simulation test device, including: 1) the ability to inject multiple displacement media (such as steam, chemical agents or non-condensate gas, etc.); 2) capable of simulating high-pressure reservoir conditions (such as 20MPa); 3) capable of simulating high-temperature reservoir conditions (such as 350°C); 4) capable of horizontal well production reservoir simulation; 5) multi-channel, large-capacity Data acquisition system; 6) High degree of automatic control of the test process; 7) Powerful online and post-processing functi...

Claims

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Application Information

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IPC IPC(8): E21B43/24
Inventor 昝成罗健沈德煌关文龙江航郭嘉王红庄马德胜李秀峦
Owner PETROCHINA CO LTD
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