RU1595206C - Method of measuring residual water in texture-nonuniform mudded mine rocks - Google Patents

Abstract

FIELD: oil production. SUBSTANCE: when measuring electric conductivity at water removal by means by method of capillary extraction, the side of the specimen is insulated by water-proof covering. Then water is removed through edge surface of the specimen by means of moisture-absorbing medium in form of mixture of ground silica gel and chalk powder (2:1 ratio). Point of critical water-saturation is used as reference point where residual moisture is measured. Critical water-saturated point corresponds to area with zero differential of electric conductivity depending on moisture content. EFFECT: improved truth of measurement. 1 dwg

Description

 The invention relates to conductometric methods for determining water saturation in rocks and can be used to determine residual water in rock samples of oil and gas fields.

 The aim of the invention is to increase the reliability of determining residual water by ensuring the equilibrium state of the sample with variable moisture saturation.

 The drawing shows the calibration dependences of electrical conductivity on water saturation for various rocks, i.e. for samples from various groups of collectors.

 The method is implemented as follows.

Rock samples in the amount of n pieces are covered with glue made by dissolving plexiglass in chloroform or dichloroethane, leaving the ends of the samples uncovered. The samples were then dried to constant weight at 105 ^{° C,} weighed, saturated with formation water model, reweighed and measure the electrical conductivity. Water is removed from the samples by capillary drawing, for which the samples are wrapped in filter paper and placed in a desiccator with a mixture of ground silica gel and chalk powder in a ratio of 2: 1, respectively, so that the mixture layer above the ends is 5-10 mm. A load weighing 3-5 kg is placed on top of the mixture. The samples are kept in the mixture for 1 h, removed from the desiccator, freed from paper, weighed and measured electrical conductivity. Then the process is repeated. Thus, 15-20 points are taken at regular intervals. According to the measurement results, the electrical conductivity is calculated and a plot of the electrical conductivity versus water saturation ρ = f (B) is plotted.

 To determine the water saturation, a reference point corresponding to the critical water saturation is used, which is determined by the dependence ρ = f (B) in the area with zero production, i.e. where ρ = const. The water saturation determined in this way corresponds to the end of the process of free water removal, i.e. the value of residual water saturation. This characteristic reflects a change in the physical state of water (loosely bound water makes a major contribution to conductivity); therefore, it is a reasonable criterion for evaluating this critical water saturation as residual water.

Claims (1)

 METHOD FOR DETERMINING RESIDUAL WATER IN TEXTURALLY HETEROGENEOUS GLINIZED ROCKS, including measuring the conductivity of a sample during the removal of water by capillary drawing in determining the residual water at the reference point of the calibration dependence of specific conductivity on water saturation, characterized in that, in order to increase the reliability of determining by ensuring the equilibrium state of the sample with variable water saturation, isolate the side surface of the waterproof sample wetting, water is removed through the end surface of the sample using a moisture-absorbing medium in the form of a mixture of ground silica gel with chalk powder, mainly in a 2: 1 ratio, and the critical water saturation point corresponding to the site with a zero derivative of the calibration dependence is used as a reference point.

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