SU1183668A1 - Method of separating the interval of untightness in well - Google Patents

Abstract

A METHOD FOR ESCAPING THE NON-TERMINAL NON-TERMINAL INTERVAL IN THE WELL, including recording a change in temperature during injection, characterized in that, in order to shorten the separation time of the column leaks and increase the detail of the selected intervals for injectivity, they temporarily increase and decrease the duration of the discharge, during which the reproducing interval of the injectivity of the column will increase and reduce the duration of the discharge, during which time the pressure will increase and decrease the duration of the discharge. temperature and pressure, and by comparing changes in temperature and pressure, the position of the leakage section of the vessel observations, (L and judging by the degree of temperature decrease, the pickup value of the leakage section is measured. sk from 05 O) 00

Description

The invention relates to geophysical well testing and can be used when searching for casing leakage sites. wells. “The purpose of the invention is to shorten the time interval for the leakage interval of the column and increase the detail of the selected intervals for pickup. . The drawing shows graphs of pressure changes at wellhead 1 and temperatures at point 2, below which there is no leakage or fluid withdrawal has a different size of 3 and 4 segments, and B shows the temperature deficit at the observation point after a short-term increase and pressure drop. The method is implemented as follows. The thermometer is installed at a point half the depth of the well, a pressure gauge at the mouth or in the depth gauge, and the pressure is increased by the order of the pressure test at the time the –sh is formed at a given temperature gradient gradient of at least 2 & where e is the error in recording the temperature, the time given is determined by the performance of the unit and the injectivity of the well and is actually equal to the time to reach the specified pressure. With a pick-up of 2-3, the CA-400 unit, when operating at a second speed, with a pressure of 100 kgf / cm, is achieved in 30-50 seconds. In a sealed well filled with process water, the temperature rises due to adiabatic compression by about no less than 0.2 C. With a recording error of 0.05 ° (standard error for STL-28, TEG-36 devices), the indicated value exceeds the error registration four times. Then, an increased pressure is maintained for 100,200 C, without stopping the recording of the laziness and temperature, they release pressure. Registration is continued until temperature stabilization. If the temperature graph corresponds to the pressure graph (the temperature increases with increasing pressure and decreases with its fall, curves 1 and 2), then there is no flow below the observation point and it is necessary to select the Bbmie point observed to search for leaks and repeat the cycle (and so on to localization of leaks). If, however, with a constant increase in pressure, the temperature decreases (curves 3 and 4), this means (at Normal thermogradient) that the temperature rise due to compression is compensated (partially or completely) by vertical fluid flow in the interval below the observation point and, therefore, leaks must be found below the observation point (repeat the cycle at the next point, and so on until the location of the leak is localized). In this case, the temperature will not recover and, after depressurization (segments "and b), the lack of temperature will be the greater, the more the leakage interval is absorbed. For example, with a pick-up of 200, the point with the initial temperature will shift down 20 meters in 20 seconds and correspondingly. Actually, the temperature at the point of observation (with a gradient, for example, under Tartary conditions of 1.25 ° C per 100 m) will decrease by 0.25 ° C. After depressurization, the temperature partially recovers due to the elasticity of the formation in the interval of leakage, but a decrease in temperature under increased pressure is a reliable indicator of flow below the observation point. The time of elevated pressure in the case of low injectivity can be increased, however, even a delay of injectivity 5 is sufficient for a time of not more than 10 minutes. Even in this case, such a point-by-point study in a well with a depth of 1,800 m can reveal a leakage point with an accuracy of 3 m in no more than 90 minutes (1.5 hours).

Claims (1)

A METHOD FOR DETERMINING A COLUMN LEAKAGE INTERVAL IN A WELL, including recording temperature changes during injection, characterized in that, in order to reduce the time for isolating the leakage interval of the column and increase the detail of the selected injectivity intervals, a short-term increase and pressure relief are carried out, during which the temperature and pressure, and by comparing the changes in temperature and pressure, they judge the position of the leakage section of the column relative to the observation point denions, moreover, the degree of injectivity of the leakage section is judged by the degree of temperature decrease. >