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Method for simulating offshore oilfield micro fracturing injection increase crack propagation on basis of fluid-solid-heat coupling theory

An offshore oil field, fracture propagation technology, applied in the direction of electrical digital data processing, special data processing applications, instruments, etc., can solve problems such as fracture propagation simulation research that has not yet been seen

Active Publication Date: 2018-11-16
SOUTHWEST PETROLEUM UNIV
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] So far, there has been no simulation study of fracture propagation for the micro-fracturing stimulation process of offshore high-porosity and high-permeability reservoirs

Method used

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  • Method for simulating offshore oilfield micro fracturing injection increase crack propagation on basis of fluid-solid-heat coupling theory
  • Method for simulating offshore oilfield micro fracturing injection increase crack propagation on basis of fluid-solid-heat coupling theory
  • Method for simulating offshore oilfield micro fracturing injection increase crack propagation on basis of fluid-solid-heat coupling theory

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Embodiment 1

[0160] Through on-site logging, the geological data of a micro-fracturing water injection well in the Bohai Sea was obtained. The geological characteristics of the target reservoir corresponding to the injection point of the well belong to the typical characteristics of this area, which is representative, that is, the reservoir has high porosity and high permeability. features.

[0161] Simulate calculation routes such as figure 2 , the specific simulation method steps are as follows:

[0162] 1. Obtain the geological parameters of the reservoir through field logging: Poisson’s ratio of rock is 0.3, vertical depth of well is 1500m, reservoir thickness is 30m, initial permeability of formation is 1000mD, initial porosity is 30%, initial formation temperature is 50℃, original Formation pressure 15MPa, elastic modulus 10000MPa, minimum ground stress 27MPa, crude oil compressibility 8.7×10-4MPa-1, rock compressibility 5.1×10-4MPa-1, formation water compressibility 4.4×10-4MPa-1,...

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Abstract

The invention discloses a method for simulating offshore oilfield micro fracturing injection increase crack propagation on the basis of fluid-solid-heat coupling theory. The method comprises the following steps that geological characteristic parameters are obtained on the basis of offshore micro fracturing well geological data; a hydraulic crack propagation model is built, and fluid pressure and filter loss in a crack are obtained; on the basis of a reservoir matrix model, dynamically changing pore pressure in a reservoir is worked out; on the basis of elastic mechanics and permeation fluid mechanics, a pore elastic deformation relation between fluid and rock is built, that is to say, a fluid-solid coupling model is built, and by means of the calculated pore pressure, rock strain caused bythe fluid can be obtained; a heat effect relation between the temperature and the rock is built, a strain, porosity, permeability and temperature fluid-solid-heat coupling model is built, the permeability and porosity after coupling change are obtained, the pore pressure after three-field coupling change is obtained, the changed pore pressure reacts on a Darcy filtration model, and the crack extension dynamic of the next moment is obtained. According to construction and geological parameters, the dynamic extension situation of the hydraulic crack and real-time change situation of the reservoir parameters in the offshore micro fracturing well long-term injection increase process can be predicted according to the construction and geological parameters.

Description

technical field [0001] The invention relates to a method for simulating the expansion of micro-fracturing injection fractures in offshore oilfields based on heat-fluid-solid coupling theory, and belongs to the technical field of oil and gas field development. Background technique [0002] Most offshore oil and gas areas have serious stratum heterogeneity, loose cemented reservoirs, and are prone to sand production. In the later stage of production, due to the poor quality of long-term injection water, the particles and oil pollution contained in it will accumulate near the bottom of the well and block the pores, causing well The actual conditions such as bottom pollution, rapid rise of injection pressure, lack of formation energy, and difficulty in meeting injection volume requirements. In order to solve this series of problems, offshore oilfields generally use micro-fracturing technology to open the formation near the wellbore, penetrate the pollution zone, and then increas...

Claims

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Application Information

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IPC IPC(8): G06F17/50
CPCG06F30/20G06F30/23
Inventor 王强胡永全赵金洲杨寨刘常清
Owner SOUTHWEST PETROLEUM UNIV
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