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Modeling method and system for organic scale damaged hydrocarbon reservoir, and spatio-temporal evolution 4D quantitative and intelligent diagnosis method and system for damage degree

A modeling method and organic scaling technology, applied in the field of oilfield exploration, can solve the problems of large damage to the underground reservoir, difficult to reflect the law of reservoir damage, and inability to consider the dynamic change of reservoir characteristics, so as to restore oil well production and water well water injection. capacity, optimal design of plugging measures, and the effect of improving the accuracy of reservoir numerical simulation

Active Publication Date: 2021-11-16
CHINA UNIV OF PETROLEUM (BEIJING)
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Problems solved by technology

The core flow test method is to understand the degree of damage through the change of permeability before and after core displacement. Although it is more suitable for studying single-factor reservoir damage, it is difficult to reflect the law of reservoir damage on a large scale
In addition, due to the ideal conditions of the indoor core experiment, the cores used for evaluation are all original state cores, and the dynamic changes of reservoir properties cannot be considered, so the experimental results are quite different from the real damage of the downhole reservoir.

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  • Modeling method and system for organic scale damaged hydrocarbon reservoir, and spatio-temporal evolution 4D quantitative and intelligent diagnosis method and system for damage degree
  • Modeling method and system for organic scale damaged hydrocarbon reservoir, and spatio-temporal evolution 4D quantitative and intelligent diagnosis method and system for damage degree
  • Modeling method and system for organic scale damaged hydrocarbon reservoir, and spatio-temporal evolution 4D quantitative and intelligent diagnosis method and system for damage degree

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Embodiment Construction

[0033] Specific embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings. It should be understood that the specific embodiments described here are only used to illustrate and explain the present invention, and are not intended to limit the present invention.

[0034] In the process of oil field development, the pressure balance state in the oil layer is destroyed, resulting in the overflow of some light components in crude oil and the precipitation of some heavy components. serious damage. Generally speaking, organic scales such as asphaltene exist in the form of partial dissolution and partial colloidal suspension in crude oil, and the colloidal precipitation of asphaltene and other organic scales is related to their solubility. Therefore, the core of each embodiment of the present invention is to establish a kinetic model of the change of organic scale dissolution capacity with reservoir pressure. Specifically, ba...

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Abstract

The invention relates to the technical field of oil field exploration, and discloses a modeling method and system for a reservoir damaged by organic scale, and a method and system for determining the damage degree of the reservoir. The modeling method comprises the steps: determining the pressure of a reservoir located in a preset area of a to-be-diagnosed well; determining a first relational expression that the maximum dissolved amount of the organic scale in the crude oil changes along with the pressure of the reservoir; determining a second relational expression that the mole number of the organic scale particles in the crude oil changes along with the pressure of the reservoir and the maximum dissolved amount of the organic scale in the crude oil; and determining a spatio-temporal evolution simulation equation of the reservoir damaged by the organic scale according to the second relational expression, the first relational expression and the pressure of the reservoir. According to the method, the four-dimensional spatiotemporal evolution process of reservoir damage characteristics caused by organic scale can be quantitatively simulated, so that reservoir damage quantitative prediction and damage law spatiotemporal deduction are carried out on wells without reservoir damage.

Description

technical field [0001] The invention relates to the technical field of oilfield exploration, in particular to a modeling method and system for organic scale damage reservoirs and a method and system for determining the degree of reservoir damage. Background technique [0002] In each period of oilfield exploration and development, due to the influence of various internal and external factors, the original physical, chemical, thermodynamic and hydrodynamic equilibrium state of the reservoir will change, which will inevitably make the reservoir near the wellbore wall and even the far wellbore wall The internal permeability of the reservoir is reduced, blocking fluid flow, causing reservoir damage and oil well production decline, or even "shooting" the reservoir. The causes of reservoir damage are diverse and complex, especially during the production process, the reservoir rock storage and seepage space, surface wettability, hydrodynamic field, temperature field, rock type, etc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/20G16C10/00E21B49/00G01N13/00G01N15/08G06F113/08G06F111/10
CPCG06F30/20G16C10/00E21B49/00G01N13/00G01N15/088G06F2113/08G06F2111/10G01N2013/006
Inventor 蒋官澄朱鸿昊李奕政贺垠博杨丽丽董腾飞彭春耀骆小虎罗绪武梁兴谭宾冉启发刘小波程荣超王增林陈刚
Owner CHINA UNIV OF PETROLEUM (BEIJING)
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