RU2272304C2 - Method for magnetic filming of placers, containing ferromagnetic minerals - Google Patents

Abstract

FIELD: prospecting geophysics, possible use for finding and prospecting placers, containing ferromagnetic minerals.

SUBSTANCE: measurements of strength of magnetic field are performed serially for two opposite directions of modulus-even magnetization field strength. Ungrounded multi-coil loop of small size is utilized with direct current. Multi-coil loop is positioned during each measurement from one observation point to another at all area of search. Magnetization field is compensated in measuring point by means of small frame with current, which is rigidly engaged with measuring device.

EFFECT: improved efficiency of magnetic filming.

Description

The invention relates to exploratory geophysics and can be used for the search and exploration of placers containing ferromagnetic minerals.

There is a method of magnetic surveying placers containing ferromagnetic minerals by artificially magnetizing the rocks surrounding them, consisting in the fact that with the help of an ungrounded multi-turn loop of small size with a direct current located on the surface of the earth that is moved during each measurement over the entire search area, a magnetic field is excited , which at the measurement point is compensated by the field of a small frame with a current rigidly fastened to the measuring device, and the magnetic field strength is measured, including Rocks that are magnetized in this way [1] (prototype).

The disadvantage of this method is that its effectiveness, generally limited by the content of magnetite in the concentrate and the depth of the productive horizon, is not fully used due to the possible overlap of local anomalies of the geomagnetic field of other origin and due to possible interference caused by the residual magnetization of ferromagnetic minerals with possibly chaotic distribution modulo and direction, and, ceteris paribus, can be significantly increased.

The proposed method of magnetic surveying placers, including the use of an ungrounded multi-turn loop of small size with direct current, which is moved during each measurement from one observation point to another over the entire search area, compensation of the magnetizing field at the measurement point using a small current frame rigidly fixed to the measuring device , lies in the fact that the measurements of the magnetic field are carried out sequentially for two opposite directions of equal magnitude of the bias field and the difference between them is determined.

Introduced into the claims, such an essential feature is that the magnetic field strength measurements are carried out sequentially for two opposite directions of the magnetizing field strength equal in magnitude and the difference between them is determined, allowing, all other things being equal, to double the studied anomaly of the additional magnetic field strength, eliminating the influence of local anomalies of the geomagnetic field and interference that can be created by the possible randomness of the distribution of the residual magnet values of ferromagnetic minerals in absolute value and direction.

The method is as follows.

From the practice of mining alluvial gold, the fact of the often joint presence of gold and magnetite, including sometimes in aggregates, is known. Therefore, it is possible to search, outline and study placers by the distribution of ferromagnetic minerals and, accordingly, a useful component [2]. However, the possibilities of magnetic surveying are limited by the magnetite content in the concentrate and the depth of the productive horizon. The existing method of artificially magnetizing a large loop with current with measurements inside it for a number of profiles [3] increases somewhat the efficiency of magnetic imaging, but it does not fully provide the desired results due to the unevenness and small field size inside the large magnetizing loop. Another existing method, the prototype [1], with a small magnetizing loop with a current transferred during each measurement from one observation point to another, provides the same magnetization conditions and, ceteris paribus, a large magnitude of the magnetizing field, as well as compensation of the magnetizing field at the point measurement, increasing the accuracy of the latter, does not use its full potential.

The proposed method for magnetic surveying placers containing ferromagnetic minerals, including the use of an ungrounded multi-turn loop of small size with a direct current, which is moved during each measurement from one observation point to another over the entire search area, compensation of the magnetizing field at the measurement point using a small frame with current, is rigidly fastened with a measuring device, consists in the fact that the measurements of the magnetic field are carried out sequentially with two opposite directions equal modulo the magnetizing field strength and the difference between them is determined. This difference is ΔH = [J _n + χ (H + H _n ) f (x ₁ , ..., x _n )] [J _n + χ (H-H _n ) f (x ₁ , ..., x _n )] = 2χН _н f (x ₁ , ..., x _n ), where J _n is the residual magnetization and χ is the magnetic susceptibility of ferromagnetic minerals that determine the magnetic properties of the rocks enclosing them, Н and Н _н are the natural geomagnetic and of the magnetizing field, f (x ₁ , ..., x _n ) is a function that is basically almost the same within a single placer, the depth of the productive horizon, the density and nature of the particle size distribution, for example, the distribution of magnetite in it. The product of its magnetic susceptibility is the subject of study, reflecting the distribution of magnetite over the area of the placer and, with a certain degree of probability, the distribution of gold or other useful component over the area of the placer.

Magnetization is also used when enriched areas of the placer are already distinguished by magnetic anomalies, as in [2]. The picture of the magnetic field becomes more complete, relief and detailed, more free from interference.

The advantage of the method is that magnetic surveying with magnetization by a small loop in two opposite directions increases the information content, resolution and research depth of the method for direct prospecting and exploration of placers with ferromagnetic minerals and significantly reduces the likelihood of missing and underestimating some of the placers and their individual sections due to their supposedly small stocks.

Information sources

1. B.C. Yakupov, A.A. Akhmetshin, S.V. Bogach. Possibilities of artificial magnetization for prospecting and exploration of placers containing ferromagnetic minerals // Problems of geology and metallogeny of North-East Asia at the turn of the millennium. Volume 1. Magadan, 2001. S.304-307.

2. A.A. Akhmetshin, B.C. Yakupov, S.V. Rich. On the use of magnetometry for pre-operational additional exploration of placer gold deposits // Geol. and geoph., 1995, No. 9. S. 53-57.

3. Magnetic exploration: Handbook of geophysics // Edited by V.E. Nikitsky, Yu.S. Glebovsky. M .: Nedra, 1998, 337 p.

Claims (1)

A method of magnetic surveying placers containing ferromagnetic minerals, including the use of an ungrounded multi-turn loop of small size with a direct current, which is moved during each measurement from one observation point to another over the entire search area, compensation of the magnetizing field at the measurement point using a small frame with a current, rigidly bonded with a measuring device, characterized in that the magnetic field strength measurements are carried out sequentially with two opposite directions equal in absolute value to maskers magnetizing field and is determined by the difference therebetween.