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Lower limit computation method for reservoir forming physical property of effective reservoir layer under restraint of reservoir forming power and pore structure

A reservoir and power technology, applied in the field of calculation of the lower limit of physical properties of reservoirs, can solve the problem of no research results reported on the lower limit of physical properties of effective reservoirs

Active Publication Date: 2012-08-22
CHINA UNIV OF PETROLEUM (EAST CHINA)
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Problems solved by technology

However, the current research on the lower limit of physical properties of effective reservoirs is mainly to find the lower limit of physical properties of effective reservoir recovery, and there is no research report on the lower limit of physical properties of effective reservoir accumulation

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  • Lower limit computation method for reservoir forming physical property of effective reservoir layer under restraint of reservoir forming power and pore structure
  • Lower limit computation method for reservoir forming physical property of effective reservoir layer under restraint of reservoir forming power and pore structure
  • Lower limit computation method for reservoir forming physical property of effective reservoir layer under restraint of reservoir forming power and pore structure

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Embodiment Construction

[0045] Taking the calculation of the lower limit of the physical properties of effective reservoir accumulation under the constraints of accumulation dynamics and pore-throat structure in a certain area of ​​Shengli Oilfield as an example to illustrate the specific technical solution of the invention:

[0046] 1) Using the fitting relationship between oil-water interfacial tension δ and formation temperature T in a certain area ( Figure 4 ), the oil-water interfacial tension is 22.6mN / m when the calculated burial depth is 1000m and the formation temperature is about 50°C (calculated based on a surface temperature of 15°C and a geothermal gradient of 3.5°C / 100m).

[0047] 2) Use formula (1) to calculate the lower limit value of the maximum connected pore-throat radius for effective reservoir accumulation: for any critical accumulation dynamic Pf, substitute the wetting contact angle θ of oil and water on the rock as 30° and the formation temperature in step 1) The interfacial ...

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Abstract

The invention relates to a lower limit method for the reservoir forming physical property of an effective reservoir layer under the restraint of reservoir forming power and pore structure, comprising the following step of: on the basis of building a function relationship between the tension force of an oil-water interface and the temperature of a stratum system, building a function relationship between the semidiameter and the permeability of a maximum through hole throat of a reservoir layer, and building a function relationship between K / phi and K of the reservoir layer under the restraint of hole throat structure type, computing the reservoir forming physical property lower limit of the effective reservoir layer under the restraint of the reservoir forming power and the pore structure under different stratum temperature conditions. The research result of the method is combined with the research result of the physical property recovery and the reservoir forming power recovery of the reservoir layer in the geological historical period, so that the effectiveness of the reservoir layer in the geological historical period can be evaluated, and the oil gas distribution law in the reservoir forming period can be analyzed, therefore, the method has an important meaning for guiding the oil-gas exploration and deployment.

Description

technical field [0001] The invention relates to the field of petroleum and natural gas exploration and development, in particular to a method for calculating the lower limit of physical properties of accumulation under the constraints of accumulation dynamics and pore structure. Background technique [0002] The lower limit of effective reservoir physical properties refers to the minimum permeability and porosity of the reservoir that can seepage and store oil and gas under certain conditions of accumulation dynamics and oil-water properties during the oil and gas accumulation period. The lower limit of physical properties of effective reservoir accumulation is mainly affected by factors such as accumulation dynamics, fluid properties, reservoir properties, and formation temperature and pressure conditions. For example, the increase of accumulation power, the decrease of crude oil density and viscosity, and the decrease of secondary pore content in the reservoir will all red...

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Application Information

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IPC IPC(8): G01V9/00
Inventor 王艳忠操应长葸克来宋玲杨田
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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