SU911428A1 - Method of predicting approach to oil seam - Google Patents

Description

(5) METHOD OF FORECASTING. APPROACHING TO THE OIL LAYER

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The invention relates to geophysics and can be used in the exploration of oil fields to identify possible deposits before the bottom of the well reaches the reservoir.

A known method for predicting the approach to oil deposits, which consists in determining, from the indications of a logging station, the occurrence of gas in a mud solution saturated with gas, which comes to the surface during the drilling of the borehole II.

However, this method does not allow with sufficient accuracy to predict the approach to oil deposits, since the occurrence of gas during drilling depends on the rock in which it is drilling.

The closest to the technical essence of the present invention is a method for predicting the approach to the oil reservoir, consisting in the selection of about 8 rocks.

In the process of drilling and measuring their magnetic susceptibility at normal ambient temperature

However, this method also does not allow one to sufficiently accurately determine the approach to the oil reservoir. This is due to the fact that the magnetic susceptibility (determined at the usual temperature of the samples from the depth during drilling occurs relatively little.

The purpose of the invention is to eliminate emergencies during drilling by more accurately determining the location of the formation.

The goal is achieved by the fact that according to the method of predicting the approach to the oil reservoir, which consists in taking rock samples during drilling and measuring their magnetic susceptibility at normal ambient temperature, the rock samples after measuring their magnetic susceptibility at normal temperature of the medium are heated to no less than , then the rock samples are cooled to the initial temperature and the magnetic susceptibility is re-measured and, by increasing the ratio ./at, is judged to approach ft Nome reservoir, where al. - magnetic susceptibility image. at normal temperatures, they are magnetic susceptibility of rock samples after heating and cooling. The method is as follows. .Samples of rocks or shlama obtained during the drilling process, after, washing off the drilling fluid are subjected to measurements of magnetic susceptibility (on serial IIA-2 devices (magnetic susceptibility meter) at the usual temperature for this medium. Then the samples (slurry) are heated to temperature is not less than and kept at this temperature for min, then cooled to the initial temperature and after cooling, the magnetic susceptibility is measured again (the values of 32 and SJt-Essential are compared (not the increase in the magnetic susceptibility of rock samples after heating is an indication of the possible close presence of an oil reservoir (reservoir). The method is based on the known fact of the presence in terrigenous oil deposits 3. the provinces of secondary siderite, the formation of which is due to the influence of hydrocarbons due to j. Primary sideritization is practically not observed. The range of vertical distribution of rocks containing secondary siderite by the superflash can vary widely, and, according to available data, is not less than m. It is also known that when heated within the range, siderite oxidizes into magnetite. Such mineralogical transformations alter the magnetic properties of rocks, namely, they increase the mag. 7 nitric susceptibility. Thus, an increase in the ratio indicates the presence of a spindle in the rocks and 6 possible proximity of the oil reservoir (reservoir). . The table shows the magnetic susceptibility of the rocks of the Devonian oil-producing horizons of Bashkiria in the interval from 5 to 20 m above the deposit before and after heating. The use of the proposed crjocobob allows to foresee in the drilling of exploration wells an approach to the oil-bearing formation and to avoid unexpected oil spills, which can lead to the death of the well equipment and operating personnel, i.e. improve the safety of 6yt rhenium wells.

Claims (2)

1. Vadetsky Yu.V. Drilling of oil and gas wells. M., Nedra, 1978 with. 35-36. 2.Grinkevich G.I. Magnetic exploration. M., Science, 1970, p. 165-166 (prototype).