SU843579A1 - Method of determining rock porosity - Google Patents

Abstract

THE METHOD OF CRUSHING THE POROSITY OF MINING ROCKS IN THE Borehole by irradiating with neutrons and measuring the intensity of the secondary radiation of the studied formation, a highly porous reference formation with a known porosity and a low-porosity supporting formation and the subsequent calculation of the porosity of the studied formation using a hyperbolic approximation of the pattern, I used the template, and I used it. that, in order to expand the field of application and simplify the method, as a low porosity reference plate This is used as rock salt, the reference value of porosity К ^ of which is calculated according to the formula. The invention relates to the field of geophysical research of wells, in particular, to methods for determining porosity in wells drilling for oil and gas. A method is known for determining the porosity of rocks according to neutron-Hb data well testing methods by standardizing the measuring device for several reference media (models), irradiation and radiation intensity measurement in the borehole section. k = a ^ - where d j./d is the ratio of the diameter s well against low porosity of the support and the test beds; a, b are constant, depending on the type of equipment used and the lithologists of the composition of the formation being studied and installed on the reference well materials. Q ^ (The disadvantages of this method are the laboriousness of creating reference media that are adequate to the scattering, retarding and absorption of properties in relation to the processes of passage of neutrons and gamma quanta in natural geological objects, as well as the difficulty of taking into account the differences in the physical conditions under which the taping is performed and the production measurement. determining the porosity of the rocks by irradiation with neutrons and measuring the intensity of the Auto-00 4 ^ OO ^ JV with

Description

irradiation of the reservoir under investigation, as well as of two reference seams (of low porosity of the same or close to the studied lithological composition and highly porous) in the well section, the porosity of which is known from core radiation data of the explored or reference wells or other geophysical methods, and the subsequent calculation of porosity using a hyperbolic approximation of the dependence of the intensity of secondary radiation on the porosity of rocks.

This method is the prototype of | j proposed.

The disadvantage of this method is the difficulty of choosing two layers with known porosity and lithology in the section of the studied well for using them as reference ones. This is due to the variability of the lithological composition and the porosity of the layers used as reference, even within separate areas (sometimes 25 they generally fall out of the section), which does not allow transferring the parameters of the layers in the reference wells to the sections being studied. The latter necessitates the need for additional core studies to clarify the lithologic composition and porosity values of the supporting β-plastics in each well under study, which is associated with a considerable amount of time and is often completely ruled out due to the absence or lack of representation of the core.

The aim of the invention is to expand the scope and simplify the method. .jQ

The goal is achieved by using a known method for determining the porosity of rocks as a low-porous support layer using a layer of rock salt, the reference value of the porosity of which is calculated by the formula. where dg / d „is the ratio of the borehole diameter versus the low porosity support formation (stone to salt) and H traced; a, b - constant, depending on the type of equipment used and the lithological composition of the studied formation and established on the materials of the reference wells.

The reference values of the porosity of rock salt (k) in the case of hyperbolic approximations of the dependence of the intensity of secondary radiation on the porosity of the rocks can be both positive and negative depending on the ratio of the borehole diameters to the rock salt formation (d.) And the formation under study (d), therefore essentially are fictitious, seemingly.

The regional prevalence, composition and physical properties: in rock salt, it can be considered an almost ideal supporting environment, the parameters of which are set for one area can be transferred to other areas and regions.

The method is carried out as follows. When the instrument is delivered in the well, the radiation intensity is measured in the section interval being studied, including in the formation under study, a highly porous support layer with known porosity and a rock salt layer. The effect of the difference dc and the neutron logging is taken into account when determining K by the formula (). The porosity of the studied formation is determined by the formula

And 1

(2)

 AT,

A. CHK - to

on t t, "p /

with i in

to t - tr T

l f-c ion

It.- I

on the porosity of the studied formation; porosity in the secondary porous bed; equivalent (apparent with) the porosity of the rock salt formation;: radiation intensity of the formation under investigation; the radiation intensity of the PLASTE rock salt; - radiation intensity of a highly porous bearing formation. The implementation of the proposed method is illustrated by the following example: In well No. 45 of the South-Sosnovskoye oil field (Pripty trough) in the range of 3250-3480 m, represented by rock salt and clay-carbonate differences, there are no / dense (low-porous) formations that could be used as reference. In this case, a rock salt layer can be used as a low-porous support bed. On the obtained neutron logging curve, a rock salt formation is extracted with radiation intensity values of 1.9.5. units, a high-porosity reference formation with radiation intensity values — 1.6 s, units and porosity K — 0.28, and an investigated formation with radiation intensity value I “2.92 sr. units. According to cavernometry, the ratio dj./d, 1.79, the reference value of the porosity of the rock salt formation, was found from relationship (1), which is dp of limestones and equipment of radioactive caraway DRST-1 based on reference well materials with a sufficient accuracy expression - 0.142 According to the obtained value of KI -0.024, value 1,, 1, expression (2) calculates the desired value of porosity of the studied formation (total hydrogen content), which for this example is O, I5. The use of the proposed method for determining the porosity of rocks provides in comparison with existing methods the following advantages; , eliminating the need to determine the magnitude of the porosity and lithological composition of a low-porous reference formation by geological and geophysical data to simply take into account the effect of changes in the diameter of the well against the reference and studied formations by a certain amount.

Claims (1)

METHOD FOR DETERMINING ROCK POROSITY in a well by neutron irradiation and measuring the intensity of the secondary radiation of the studied formation, a highly porous supporting formation with known porosity