DE10012339A1 - Gamma detection method for use in determining the radioactive properties of rock in boreholes, wells, etc. has a shielding arrangement that allows the azimuthal determination of radiation direction within a horizontal plane - Google Patents

Abstract

Method uses a gamma detector probe for detection of incident gamma radiation. To determine the azimuthal angle of origin of the incident radiation a whole horizontal plane is divided into segments, e.g. three segments of 120 degrees, and the radiation incident from each section is measured. Results for the different segments can then be compared. The invention also relates to a geophysical gamma borehole detector for carrying out the above method. Probe comprises gamma detector (4) and shielding (3) that can be arranged so that only radiation from a certain segment is received by the probe.

Description

The invention relates to a method and a measuring probe for borehole geophysical measuring the gamma-ray intensity in boreholes, groundwater measuring points and wells, with gamma detectors that detect the gamma ray intensity ren.

Borehole geophysical methods for measuring the intensity of gamma rays usually do not grasp these in a directionally selective manner. Borehole geophysical measurement Probes for measuring gamma rays of a conventional design accordingly have ü With only one detector permanently installed in the measuring probe to detect the Drill hole from the gamma radiation incident in the mountains. You have been for many Years in borehole geophysics. (Geophysics, 1940, Discussions and communications; radioactive because logging service: v. 5, n. 4, p. 402). About this The total incident gamma radiation is measured cumulatively without that it can be distinguished whether the gamma radiation from different a cimuthal directions with different intensity.

Arrangements in gamma-gamma density measuring probes are also known have up to three detectors for gamma-ray measurement. These detectors are arranged on a vertical line above the radiation source and serve thereby the computational elimination of the influence of borehole diameters, Roughness of the borehole wall and the filter cake according to the density determination the gamma-gamma method.

The invention has for its object a method according to the preamble of Claim 1 to improve so that differences in the ge surrounding the borehole stone or material can be measured. In addition, a measuring probe for Perform this procedure.

This object is achieved in that the entire horizontal Level is divided into individual segments, the measured values each one individual segments are recorded and evaluated separately and the results with those  of the other segments and / or compared with a later measurement. A measuring probe is specified to carry out the method.

Advantageous refinements are specified in the subclaims.

An independently registering gamma is advantageously used for each segment detector used.

In an alternative embodiment, a rotating around its vertical axis Gamma detector used.

The gamma detector (s) with an orientation system are preferred Determination of the geographic north or relative to a reference point couples.

Advantageously, the gamma detector (s) detect by means of shields only gamma rays incident azimuthally, whereby the shape and size of the th segment is determined by the location and shape of the shields.

In a preferred embodiment, the gamma detectors are on arms with a Pressure mechanism arranged that the gamma detectors against the inner wall of the borehole.

The gamma detectors are expediently symmet in a rigid system risch or asymmetrical to each other.

According to the invention, in a preferred embodiment, at least two gamma detectors, preferably three gamma detectors are provided, the abge against each other are shielded.

It makes sense for the shields to be made of lead, or another, that Gamma radiation absorbing material.  

In a preferred embodiment, the measuring probe has a detection system Solution of the direction of measurement of the gamma detectors or is so connected with such that each measuring point has a direction at the same time, absolutely too geographically north or relative to a point.

The method according to the invention and the measuring probe (hereinafter seg mented gamma log) over several independent registries gamma ray detectors that absorb each other through gamma rays elements are shielded. The detectors are spatially facing each other ordered that the directional selective gamma radiation entering the borehole measure and completely cover a full circle of 360 ° in several sectors tick.

Another variant of this invention is given when a directionally selective shielded detector rotates 360 ° around an axis and so the incident gamma radiation is measured successively in all directions. Because of the geo physical borehole measurement customary retraction or extension of the probe on Borehole measuring cable, the measured values are spiraled over the entire Boh tion, the groundwater measuring points or the well.

This invention is of particular importance in the detection of an all around homogeneous watertight sealing of annular spaces (space between the well pipes and the outer wall of the well bore) at wells and Groundwater measuring points, which are preferably made by pressing a gamma active monazite sand-enriched clay-cement mixture is produced.

Fig. 1 shows an embodiment of a probe with three gamma detectors . Fig. 2 shows a measurement example of the segmented gamma log.

Fig. 1 shows a measuring probe with three gamma detectors 4 in one unit with the associated secondary electron multiplier (SEV) attached to arms.

The detectors are on the same horizontal plane, each offset by a spatial angle of 120 °. The attachment of specially shaped shielding elements 3 made of lead ensures that the radiation registered on the detectors preferably originates from a spatial angle of likewise 120 ° from the examination area opposite the detectors. In order to constantly maintain the required constant examination geometry, the arms are pressed elastically by a spring mechanism 5 , according to the diameter of the well, the measuring point or the bore, against the inner wall.

The three probe bodies with detectors and signal conditioning 4 are pressed on by the pressing mechanism 5 in accordance with the diameter of the bore. The shielding 3 of the individual detectors 4 from one another, here lead has been used, ensures that only radiation from the respective preferred direction can get into the detectors 4 . About the probe computer with transmission electronics and direction module 1 , optionally compass or gyroscope, the position of the individual probe body 4 is determined to be geographically north. In the probe body with detectors and signal recording 4 , the measured values are processed simultaneously and passed on to the probe computer 1 .

With the help of the transmission electronics 1 , the measurement data are passed on to the processing station located above the borehole via the borehole measuring cable connected in the probe head with transition piece 2 .

Fig. 2 shows a measurement example of the segmented gamma log's with a measuring probe, which has three 120 ° horizontally offset detectors. The measurement was carried out in a well, the annular space (space between the well pipes and the outer wall of the well bore) was subsequently pressed with a clay-cement mixture, which in turn was enriched with monacite sand to increase the gamma radiation. A measurement 6 was carried out before and a measurement 7 was carried out after the pressing. In this respect, the success of the measure can be derived from the difference between the measurements after and before the pressing. If a significant and comparably large increase in radiation can be measured in all three segments, it can be assumed that the annulus of the well is homogeneously compressed all around and is therefore water-impermeable.

Claims (11)

1. A method for physical measurement of the gamma ray intensity in boreholes, groundwater measuring points and wells, with gamma detectors ( 4 ) which detect the gamma ray intensity, characterized in that the entire horizontal plane is measured divided into individual segments, and the measured values of each individual segment are recorded separately , evaluated and the results compared with those of the other segments and / or with a later measurement. 2. The method according to claim 1, characterized in that an independently registering gamma detector ( 4 ) is used for each segment. 3. The method according to claim 1, characterized in that one is ne vertical axis rotating gamma detector is used. 4. The method according to any one of claims 1 to 3, characterized in that the or the gamma detectors ( 4 ) are coupled to an orientation system for determining the horizontal position. 5. Measuring probe for performing the method according to one of claims 1 to 4, characterized in that the gamma detector (s) ( 4 ) detect only azimuthally incident gamma rays through shields ( 3 ), the shape and size of the segment being detected is determined by the location and shape of the shields ( 3 ). 6. Measuring probe according to claim 5, characterized in that the gam madetectors ( 4 ) on arms with a pressing mechanism ( 5 ) are arranged on, which presses the gamma detectors ( 4 ) against the inner wall of the borehole. 7. Measuring probe according to claim 5 or 6, characterized in that the gamma detectors ( 4 ) are arranged symmetrically or a symmetrically to one another in a rigid system. 8. Measuring probe according to one of claims 5 to 7, characterized in that at least two gamma detectors ( 4 ), preferably three gamma detectors ( 4 ) are provided. 9. Measuring probe according to one of claims 5 to 9, characterized in that the gamma detectors ( 4 ) are shielded from one another. 10. Measuring probe according to one of claims 5 to 10, characterized in that the shields ( 3 ) consist of lead, or another material which absorbs the gamma radiation. 11. Measuring probe according to one of claims 5 to 10, characterized in that the measuring probe has a system for detecting the measuring direction of the gamma detectors ( 4 ), or is connected with such a ver that each measuring point has a direction simultaneously, absolutely to geographically north or relative to a point.