High-temperature and high-pressure unsteady-state equilibrium condensate oil gas-phase permeation test method

A steady-state balance, high temperature and high pressure technology, applied in the direction of measuring devices, analytical materials, permeability/surface area analysis, etc., can solve the problems of heavy experimental workload, complicated methods, and low precision, and achieve improved experimental data accuracy and simple operation Effects that are easy to implement and easy to promote

Active Publication Date: 2020-11-24
SOUTHWEST PETROLEUM UNIV
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Problems solved by technology

This method is in line with the field practice, and the results can explain the problem that formation condensate oil is easy to flow, but this method is very complicated, mainly as follows: (1) Two core experiments are required, one is depletion experiment to determine the criticality Flow saturation, the other is multiple balanced oil and gas displacement experiments, the experimental workload is heavy; (2) the steady state method requires two pumps, and the difficulty of the experiment

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  • High-temperature and high-pressure unsteady-state equilibrium condensate oil gas-phase permeation test method
  • High-temperature and high-pressure unsteady-state equilibrium condensate oil gas-phase permeation test method
  • High-temperature and high-pressure unsteady-state equilibrium condensate oil gas-phase permeation test method

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Embodiment

[0057] A high-temperature and high-pressure non-steady-state equilibrium condensate gas phase permeability test method includes the following steps in sequence:

[0058] S1. After extracting, cleaning and drying the core retrieved from the site, measure the length L=10.5cm, diameter d=6.9cm, core porosity φ=13.47%, and calculate the cross-sectional area of ​​the core A=37cm 2 and pore volume Vp = 54cm 3 ;

[0059] S2. According to the national standard condensate gas sample preparation, the maximum condensate oil saturation S is measured om is 29%, the dew point is 46MPa, and the pressure P corresponding to this degree of saturation is obtained Som is 25MPa, through the phase state simulation of condensate gas samples, the equilibrium oil phase composition at 25MPa is predicted, and this composition is used to predict the separation experiment, and the equilibrium oil simulation volume coefficient B is obtained op is 1.65;

[0060] S3. Preparation of balanced oil and gas s...

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Abstract

The invention relates to a high-temperature and high-pressure unsteady-state equilibrium condensate oil gas-phase permeability test method. The method comprises the following steps: extracting, cleaning and drying a rock core; testing the maximum condensate oil saturation Som, the corresponding pressure PSom and the balance oil volume coefficient Bop of the constant volume failure; preparing a balanced oil gas sample; transferring the balanced oil gas sample; establishing bound water for the rock core; continuously performing balance oil displacement on the rock core under the pressure PSom and the formation temperature; carrying out balanced gas displacement on the rock core to obtain accumulated oil production O (t) and accumulated gas production G (t) on the ground; converting into accumulated oil production O '(t) and accumulated gas production G' (t) under stratum conditions; and calculating the oil-phase relative permeability Kro, the gas-phase relative permeability Krg and the gas saturation Sge of the outlet end surface of the rock core at each moment. The influence of rock and oil gas fluid under the stratum high-temperature and high-pressure conditions is considered, themeasurement result better conforms to production practice, and a simpler, more convenient, more accurate and more effective relative permeability curve testing method is provided for condensate gas reservoir development.

Description

technical field [0001] The invention relates to a high-temperature and high-pressure unsteady-state equilibrium oil-gas phase permeability testing method in the oil-gas reservoir development process in the field of petroleum and natural gas exploration and development. Background technique [0002] Oil-gas phase permeability is an important basic data in gas field development. The current standard practice for oil-gas phase permeability testing is to use simulated gas ( Nitrogen) and simulated oil (kerosene) are measured by steady-state method or unsteady-state method, and the test conditions are normal temperature and low pressure. Studies have shown that under the conditions of high temperature and high pressure in real equilibrium oil and gas reservoirs, the gas-oil interfacial tension is much smaller than the standard method, and the viscosity ratio is also very different. The fluids involved in seepage are not in phase equilibrium, resulting in great differences in test...

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Application Information

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IPC IPC(8): G01N15/08G01N13/04
CPCG01N13/04G01N15/0826
Inventor 郭平刘学睿汪周华孙博文杜建芬胡义升刘煌王烁石
Owner SOUTHWEST PETROLEUM UNIV
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