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Reservoir capillary pressure curve determinator under high temperature and pressure

A capillary pressure curve, high temperature and high pressure technology, applied in the direction of instruments, analytical materials, etc., can solve the problems of calculation error, interfacial tension and rock wetting angle cannot be accurately measured, and achieve the effect of solving large errors and maintaining stable pressure.

Inactive Publication Date: 2012-08-01
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The formation capillary pressure under high temperature and high pressure can only be calculated according to the oil-water, oil-gas interfacial tension and rock wetting angle under the formation conditions, but the interfacial tension and rock wetting angle under the formation conditions cannot be accurately measured at present, which makes the calculation difficult. big error
Therefore, it is very necessary to study the method of measuring the capillary pressure curve of the reservoir under the condition of high temperature and high pressure and the development of related equipment. At present, there are no reports of similar equipment at home and abroad.

Method used

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  • Reservoir capillary pressure curve determinator under high temperature and pressure
  • Reservoir capillary pressure curve determinator under high temperature and pressure
  • Reservoir capillary pressure curve determinator under high temperature and pressure

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Embodiment Construction

[0020] The present invention will be further described below in conjunction with the accompanying drawings.

[0021] Such as figure 1 As shown, the present invention is composed of an annular pressure system, an injection system, a core clamping system, a semi-permeable partition, a back pressure system, a metering system, an automatic data collection and processing system and a constant temperature box connected by pipelines.

[0022] 1. Ring pressure system: mainly composed of manual pump 1, pressure gauge 2 (including gauge seat) and liquid supply cup 3, each component is connected by a high-pressure pipeline with a pressure resistance of 80MPa, and the liquid supply cup 3 is connected to the liquid of manual pump 1 At the inlet, the outlet of the manual pump 1 is connected with the pressure gauge 2, the ring pressure and axial pressure inlets of the core holder. Rotate the handle (hand wheel) of the manual pump to compress the liquid in the pump, apply axial and circumfer...

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Abstract

The invention provides a reservoir capillary pressure curve determinator under a high temperature and a pressure. The determinator comprises a ring pressure system, an injection system, a core clamping system, a semi-permeable baffle plate, a back pressure system, a measuring system, a data automatically collecting and processing system, and a thermostat which are connected through pipelines. A semi-permeable baffle plate method is adopted to measure capillary pressure curves under a stratum condition, and the basic rationale is that a principle of balance between an impressed pressure and the capillary pressure is used to measure the capillary pressure curves under the high temperature and the pressure. Core saturated wetting phase fluid displaces a wetting phase with a nonwetting phase under a certain displacement pressure. When the impressed pressure overcomes the capillary pressure of a certain capillary in the core, the wetting phase fluid in the capillary is discharged gradually, and the wetting phase fluid saturation in the core is reduced. Pressure is increased stepwise, accumulated discharged quantity of the wetting phase fluid when the wetting phase fluid is no longer discharged and an injection pressure are measured, and the capillary pressure curves can be solved.

Description

Technical field: [0001] The invention relates to an oil reservoir capillary pressure curve measuring device under high temperature and high pressure conditions, which belongs to the field of experimental equipment for oil exploitation. Background technique: [0002] The capillary pressure curve is the most basic and important data for reservoir development dynamic calculation and program formulation, and is an essential data for oilfield development. At present, the capillary pressure curve can only be measured under ground conditions, and the commonly used methods include semi-permeable diaphragm method, mercury injection method and centrifugation method. The formation capillary pressure under high temperature and high pressure can only be calculated according to the oil-water, oil-gas interfacial tension and rock wetting angle under the formation conditions, but the interfacial tension and rock wetting angle under the formation conditions cannot be accurately measured at p...

Claims

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Application Information

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IPC IPC(8): G01N7/10
Inventor 李爱芬付帅师张东
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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