RU2644989C1 - Method for assessing impact of geomagnetic activity on metrological characteristics of inclinometric and navigation equipment - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: method for assessing the impact of geomagnetic activity on the metrological characteristics of the inclinometric and navigation equipment comprises measuring and calculating the parameters of the geomagnetic field. Control indices of geomagnetic activity are calculated, characterizing the component of additional error of the inclinometric and navigational equipment, occurring during periods of nonzero geomagnetic activity, the obtained results are compared with the established standards and their difference enables to assess the degree of deviation of metrological characteristics of the inclinometric and navigational equipment.

EFFECT: minimization of the geomagnetic activity impact on the metrological characteristics of the inclinometric and navigation equipment during processes of its calibration, verification and operation.

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Description

The invention relates to the field of geophysics and can be used to assess the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation.

A known complex for checking and calibrating borehole inclinometers [patent RU, No. 2439493, G01C 9/02, 01/10/2012], which consists in simplifying the design, reducing its instrumental errors, expanding the diameter range of verified borehole inclinometers.

The disadvantage of this complex is the inability to assess the impact of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation.

Also known is a method for determining and compensating for magnetic deviation of an inclinometer [RU patent, No. 2186966, E21B 47/02, G01C 9/00, 08/10/2002], which consists in increasing the accuracy of determining the azimuth angle.

The disadvantage of this method is the inability to assess the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation.

Also known is a method of measuring magnetic azimuth in a downhole inclinometer (options) and a device for its implementation [patent RU, No. 2290673, G01V 3/40, 12/27/2006], which consists in increasing accuracy and eliminating from the composition of the drilling complex inserts from non-magnetic pipes between inclinometers and a downhole assembly on one side and a drill pipe string on the other.

The disadvantage of this method is the inability to assess the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation.

Thus, the analysis of known methods and complexes for the calibration, verification and operation of inclinometric and navigation equipment revealed that they all have serious drawbacks, namely: their practical application does not provide an opportunity to assess the effect of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in its processes calibration, verification and operation.

The objective of the invention is to assess the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation.

EFFECT: minimizing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation by calculating control indices of geomagnetic activity and comparing them with the expediency of carrying out calibration, verification and operation of inclinometric and navigation equipment with these parameters of geomagnetic activity .

The problem is solved, and the technical result is achieved by the fact that in the method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment, including measuring and calculating the parameters of the geomagnetic field, according to the invention, the parameters of the geomagnetic field are measured at a given point in geographical space, and then control indices are calculated geomagnetic activity, characterizing the component of the additional error of inclinometric and navigational ion equipment is shown during non-zero geomagnetic activity, the obtained results are compared to the established norms and their difference is judged on the degree of deviation of the metrological characteristics directional and navigational equipment.

At the same time, control geomagnetic activity indices are understood to mean the additional error of the inclinometric and navigation equipment due to geomagnetic activity ranked on a 10-point quasilogarithmic scale (from 0 to 9) (Table 1), where 0 is the minimum and 9 is the maximum level of the additional error of the inclinometric and navigation equipment due to geomagnetic activity.

The control indices of geomagnetic activity are calculated on the basis of the absolute deviation of the actual parameters of the magnetic inclination / zenith angle (I _err- index of geomagnetic activity) and magnetic declination / azimuth angle (D _err- index of geomagnetic activity) from their reference values, which occurs due to non-zero geomagnetic activity ( Table 1), and are ranked on a 10-point quasilogarithmic scale (from 0 to 9) based on the requirements of a number of existing regulatory documents [RD 153-39.0-072-01. Technical instruction for the conduct and work with cable instruments in oil and gas wells of the Ministry of Energy of Russia - Moscow, 2002. - 272 pp.] [GOST 8.395-80. Normal measurement conditions during verification are the USSR State Committee for Standards. - Moscow, 1980. - 6 p.] And others.

The implementation of the method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment by calculating and recording I _err / D _err- indices of geomagnetic activity is carried out for a given point in geographic space, for which a set of components of the geomagnetic field of intra-ground sources is previously determined and calculated, including the component of the geomagnetic field of intra-ground sources, due to non-zero magnetic properties of rocks (magn etism of the earth's crust), determined according to the expression:

where B _R is the component of the geomagnetic field of the intra-ground sources, due to non-zero magnetic properties of rocks; B _GE - actually measured values of the parameters of the geomagnetic field; B _ext - variable component of the geomagnetic field, the observed due to external factors and geomagnetic activities; B _tech - the technogenic (anthropogenic) component of the geomagnetic field induction vector; B ₀ - magnetic induction of the main field, determined according to [GOST 25645.126-85. The field is geomagnetic. The model of the field of inland sources is the USSR State Committee for Standards. - Moscow, 1990. - 21 p.].

The calculations of B _R in expression (1) are performed on the basis of the measured values of the parameters of the geomagnetic field on a magnetically quiet day, as a result of which the values of the components B _tech and B _ext are taken equal to zero, thus

where B _int is the induction of the geomagnetic field of intraterrestrial sources (the main field and the magnetism of the earth's crust).

Then, taking into account expressions (1) and (2)

Component B _int in expression (3) is defined as the arithmetic average of the numerical values of the registered parameters of the geomagnetic field over several magnetically quiet periods, separated from each other by no more than 120 hours

where n is the number of recorded discrete values in the magnetically quiet period at Δt = 1 min, n = 1440.

One magnetically quiet period is understood to mean a continuous time interval that meets the condition

where Kp is the Kp index of geomagnetic activity.

Component B ₀ in expression (3) is determined according to [GOST 25645.126-85. The field is geomagnetic. The model of the field of inland sources is the USSR State Committee for Standards. - Moscow, 1990. - 21 p.] For the middle of the magnetically quiet period.

At the next stage of the implementation of the method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment, the reference values of the components and the total vector of the geomagnetic field of the intra-ground sources for the observation period of I _err / D _err- indices of geomagnetic activity are calculated:

B _ref = B _R + B _0date ,

where B _ref is the reference value of the total vector of the geomagnetic field of the intraterrestrial sources; B _0date is the magnetic induction of the main field for the observation period of I _err / D _err- indices of geomagnetic activity.

Wherein

B _ref ² = BX _ref ² + BY _ref ² + BZ _ref ² ,

where BX _ref , BY _ref , BZ _ref are the orthogonal components of the reference value of the vector of the geomagnetic field of the ground sources for the period of registration of I _err / D _err- indices of geomagnetic activity.

Based on the obtained reference values of the components of the geomagnetic field vector, the reference values of the parameters of magnetic inclination and magnetic declination are calculated in accordance with the expressions

where I _ref and D _ref are the reference values of magnetic declination and magnetic declination, respectively, at a given point in the geographical space for the observation period of I _err / D _err- indices of geomagnetic activity.

The actual values of the parameters of magnetic inclination and magnetic declination are determined in accordance with expression (5), by measuring the components of the magnetic induction vector at the observation point

where I _date and D _date are the actual (measured) values of magnetic inclination and magnetic declination, respectively, at a given point in the geographical space for the observation period of I _err / D _err- indices of geomagnetic activity; BX _date , BY _date , BZ _date , BF _date - orthogonal components and the full vector of the geomagnetic field of the intra-ground sources obtained at the time of registration of the I _err / D _err- indices of geomagnetic activity by measurement.

Based on the data obtained, the absolute deviation of the measured values of the parameters of magnetic inclination and magnetic declination (5) from their reference values (4) is determined in accordance with the expression

and averaging the obtained time series over 3-hour intervals

where i is the measurement number, m is the number of measurements (discrete recording times) per minute.

By comparing the obtained data with the accepted ranking (Table 1), the values of I _err / D _err- indices of geomagnetic activity are determined, which serve as the basis for the subsequent judgment on the feasibility of carrying out calibration, verification and operation of inclinometric and navigation equipment with given parameters of geomagnetic activity in this point of geographical space in a given period of time, as well as about the additional error of inclinometric and navigation equipment, which takes place in as a result of nonzero geomagnetic activity at the time of observation.

The invention is illustrated by drawings. In FIG. Figure 1 shows the methodology for calculating I _err / D _err- indices of geomagnetic activity, assuming that the change in soil magnetization (rocks) over time is small and can be neglected (GMA - geomagnetic activity, GMF - geomagnetic field, IMS - information-measuring system) . In FIG. 2 shows the results of observation I _err-index of geomagnetic activity for the period from 06.04.2016 on 06.06.2016 years. at a point in space defined by the following set of geographical coordinates: 67.37 ° N, 26.63 E, 178 m, in FIG. 2b presents the results of observing the D _err- index of geomagnetic activity for the period from 06/04/2016 to 06/06/2016. at a point in space defined by the following set of geographical coordinates: 67.37 ° N, 26.63 E, 178 m, in FIG. 2c presents the results of the observation of the Kp-index of geomagnetic activity for the period from 06/04/2016 to 06/06/2016, provided by the World Geomagnetism Data Center.

An example of a specific implementation of the method

An example of the result of applying the method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment is presented in FIG. 2, where one division along the abscissa axis corresponds to a 3-hour interval (thus, 3 days corresponds to 24 control points). Here are the results of observing the I _err / D _err- indices of geomagnetic activity for the period from 06/04/2016 to 06/06/2016. a point in space, given by the following set of geographical coordinates: 67.37 ° N, 26.63 E, 178 m (Fig 2a and Fig 2b, respectively..) as well as the dynamics of change Kp-geomagnetic activity index for the same period provided by the World Data Center on geomagnetism (Fig. 2c). A comparative analysis of the trends of the three time series reveals a correlation between the dynamics of changes in the I _err / D _err indices of geomagnetic activity and the dynamics of changes in the Kp index of geomagnetic activity. In addition, the analysis of the data obtained as a result of implementing the method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment showed that for the period from 3:00 p.m. (UTC) on June 5, 2016 to 03:00 p.m. (UTC) on June 6 the same year in the vicinity of Sodankylä (Finland) according to (Table 1) and [RD 153-39.0-072-01. Technical instruction for the conduct and work with cable instruments in oil and gas wells of the Ministry of Energy of Russia - Moscow, 2002. - 272 pp.] [GOST 8.395-80. Normal measurement conditions during verification are the USSR State Committee for Standards. - Moscow, 1980. - 6 pp.]) An unfavorable magnetic environment was formed for the processes of calibration, verification and operation of inclinometric and navigation equipment.

So, the claimed invention allows to minimize the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment in the processes of its calibration, verification and operation by calculating control indices of geomagnetic activity and their comparison with the appropriateness of the processes of calibration, verification and operation of inclinometric and navigation equipment with these parameters geomagnetic activity.

Claims (1)

A method for assessing the influence of geomagnetic activity on the metrological characteristics of inclinometric and navigation equipment, including measuring and calculating the parameters of the geomagnetic field, characterized in that the parameters of the geomagnetic field are measured at a given point in the geographic space, after which control geomagnetic activity indices are calculated that characterize the additional error of the inclinometric and navigation equipment, manifested in periods of non-zero geomagnetic active STI, the results are compared with the established norms and their difference are judged on the degree of deviation of the metrological characteristics of directional and navigational equipment.

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