SU1187121A1 - Method of seismic prospecting - Google Patents

Abstract

THE METHOD OF SEISMIC EXPLORATION by exciting and recording reflected and refracted seismic waves on the earth's surface with subsequent determination of static delays, characterized in that, in order to increase the effectiveness of exploration by increasing the accuracy of determining the static delays of seismic waves, in the four reference equidistant points, the area of the zone is located. on observations of the first arrivals of refracted waves, place these points in the center of the observation profile by the method of general ch the dead point, observations of the arrival times of the reflected waves are carried out and, based on the totality of observations, static seismic waves are calculated at each observation point. with

Description

eleven

The invention relates to geophysical methods for studying the elastic properties of rocks and is intended for prospecting and exploration of oil and gas structures.

The aim of the invention is to increase the effectiveness of exploration by increasing the reliability of determining static seismic lag.

The invention is based on the following patterns.

The arrival times of reflected seismic waves from one depth point to a two point profile with coordinates x and xx, undistorted by the influence of surface discontinuities, are related by

1, t, (1-пО, (1) 20

tx

where n is any positive number.

Taking into account the distortion due to the influence of surface inhomogeneities, we can write25

(tx.H "6-4tX, - dtv,)

.M

- (- itx, - t,) 2

(2)

- 2 itj (1-п2),

 (t

MS4K nab

de 4tx, tx and 4to - distortion in

as a result of the passage of seismic wave 35 through the layer from the level of reduction to the seismic receiver; 40

d t.jj, At, 4tj - distortion due to the passage of a wave from the excitation point 45 (ground level) to the level of reduction,

X to “B,, b and t. observed (distorted 50

surface irregularities) values. of time. 55 Suppose that at,

t. & t.j, lt-xj (distortions in the reference

points) determined by results

1212

first approach observations, tx and can be considered as corrected time values obtained from the observed, and (2) written as

(t ,, H «e - 4 -, M.I. (1-)

(3)

From the value of the static time delay at x, we define as

Xi - ЦАВ - 4 t -, - (1-п) Г- (4)

Further, as t, „time can be used at any point of the hodograph.

The value of the correction is calculated by the formula

) c, X Has - ut.

i / i

(1-k)

(five)

+ t2

Where

- one

t 1 -e) corrected value

time at datum points with x and x coordinates

X Has the observed time at the point x, n, -x-. The method is carried out as follows.

At the first stage, the first performances process a small section of a profile with a length of 150-300 m (defined as Zlx, where 4x is the distance between the centers of the groups when observed by the GBS method) and the use of longitudinal or transverse waves (depending on the reconnaissance ).

The site is located near the middle of the source-receiver interval in the common depth point (GBS) method.

The materials of these observations determine the speed of propagation of elastic waves in the surface part of the section within the waste area. Level 3: Cast is selected and static lag values are calculated in this region. At the second stage, the overall profile is processed using the entire profile, both for the purpose of determining static delays and for prospecting and exploration of oil and gas bearing structures. Using the time of registration of reflected waves in the middle of the source-receiver interval, t is the time at the reference point at a distance x from the middle (the center of the explosion is the center of the instrument), as well as the values of static delays in the specified and symmetric x, relative to the middle of the interval, the source - receiver points, determine the static delay value at the point X. nx by the formula (4). Data of the first arrival method is only needed to determine the first series of static delays. In the subsequent definitions, the values of the static delay, obtained by formulas (4) and (5), can be used as corrections in the new reference points. When determining the static delays of reflected waves in the extreme part of the profile, worked out using the flag system of method 214 of the common depth point (2), the number of determined values, it, on the same picket, the profile increases and on the main part of the profile reaches a maximum. Taking into account that any holographic points can be taken as the reference points, the number of definitions of one holograph at each picket only by reflection from one border is determined by the number of combinations from K-1 to 2, where K is the tracking multiplicity. “Since the number of holographs obtained at one site is equal to K, the total number of definitions on one picket of the profile based on reflections from one border only will be mk (k-1) (k-2) / 2. So, at -24-fold tracing the section On each picket of the profile there will be 6072 definitions of static delays of seismic waves. With this amount of information, random errors can be eliminated, by making the variation curves, considering the change in time delays depending on the distance of the observation points from the center of the base for the same picket of the profile lt. f (x) and it for f (nk) for the same distance from the center of the base.

Claims (1)

METHOD OF SEISMIC EXPLORATION by excitation and registration of reflected and refracted seismic waves on the surface of the earth with the subsequent determination of static delays, characterized in that, in order to increase the efficiency of exploration by increasing the reliability of determining the static delays of seismic waves, the four static equidistant points are determined .delayed observations of the first arrivals of refracted waves, arrange these points in the center of the observation profile using the common depth Melting th, conduct surveillance of the arrival times of the reflected waves and a set of observations is calculated at each point of observation static delay of seismic waves.