SU1603247A1 - Method of determining coefficient of filtering of rocks - Google Patents

Abstract

The invention relates to the study of the physical properties of materials, in particular to the determination of the permeability of rocks and other materials. The aim of the invention is to increase the information content of the method. In a certain part of the transparent tube, a rock sample is sealed tightly. Immerse it in a container with a clear liquid. Provide its upright position. A recording of the change in the level of the fluid below and above the rock specimen is made in time. 1 il.

Description

The invention relates to the study of the physical properties of materials, in particular to the determination of the permeability of rocks and other materials.

The aim of the invention is to increase the information content of the method.

The drawing shows an installation for carrying out the proposed method.

The installation contains a transparent tube 1, in a certain part of which sample 2 is hermetically fixed rock. The length of the upper end of the transparent tube (above the rock sample) Li is 5–7 times the length of the sample in the L2 tube. This is necessary so that the tube with the sample freely floats in the liquid in the tank 3 in a vertical position and allows continuous recording of fluid filtration through the rock. Tube 1 and container 3 are pre-calibrated.

Below the rock sample, leave a free part of the transparent tube L3 with a length of no more than 1-1.5 lengths of the rock sample. In the initial period, the tube 1 placed in the container 3 with the rock sample 2 is immersed in a liquid to a certain depth. The air pressure in the tube under the rock sample is equal to the pressure difference between the liquid column in the tank 3 and tube 1. After filtering the air and displacing it from the rock sample 2, the fluid level in the tube is set above the rock sample.

The speed of lowering the tube 1 with the rock sample 2 during the test is directly proportional to the gas permeability coefficient of the rock sample, then the gas and liquid phase permeability coefficient for the sample, and then the liquid permeability coefficient of the rock sample.

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The filtration coefficient is determined by the formula

 N-fi-l S Ah - / L

S RT P

Ah - L T P

.a R N / 9d.

.2.

where K is the filtration coefficient, m;

L is the sample length, m;

W is the flow rate of the liquid or gas pumped through the sample,

Ah - rise of the level of fluid in the tube during T, m;

T is the time between two registrations of the level rise in the tube, s;

jii is the dynamic viscosity coefficient of the fluid. Pa-s;

P - pressure at the entrance to the rock sample. Pa;

p is the density of the liquid, kg / m;

a - acceleration of free fall, .m / s,

S is the cross-sectional area of the sample, m;

H - the difference between the level of liquid in the tank and the tube, m ..

If the liquid level is higher than the sample of rock in the tube, then P (H-AH), where AH is the distance from the level of the fluid in the tube to the lower edge of the sample, m.

The advantage of this method is that in the course of the work, the permeability of rocks by gas, water (or other liquid) and the change in filtration of the rock by moving the gas-water contact in the rock sample can be determined.

Thus, the proposed method can be used not only to determine the permeability of rocks, but also other materials. By means of the method, it is also possible to simulate the process of advancing gas / water contact in gas and gas condensate fields.

The method of determining the filtration coefficient of rocks, including placing a rock sample in a tube, filtering a liquid through a sample, and recording the change in the liquid level over time, according to which the filtration coefficient is calculated, in order to increase the informativeness of the method, the sample is hermetically mounted in a tube, open at both ends and made of a transparent material, vertically immersed in a container with a liquid, and recording in time

Changes in the level of the fluid are carried out simultaneously in the liquid container and the sample tube.

Claims (1)

Claim A method for determining a rock filtration coefficient, including placing a rock sample in a tube, filtering through a liquid sample and recording over time a change in the liquid level, according to which the filter coefficient is calculated, characterized in that, in order to increase the informational value of the method, the sample is hermetically fixed in a tube open at both ends and made of a transparent material, vertically immerse it in a container with liquid, and registration over time of 30 changes in the liquid level is carried out simultaneously but in a container with liquid and a tube with a sample.