SU894633A1 - Seismic prospecting method - Google Patents

Description

I

The invention relates to seismic methods of exploration of steeply inclined interfaces, such as the steep slopes of salt domes, fault zones, reef arrays.

Accurate knowledge of the position of the slopes of the salt, the plane of the resetter, the surface of the reef massif is necessary both for direct detection of oil and gas traps associated with the reefs and the structures of the adjoining suprasalt deposits to the salt surface and to the plane of the resetter, and for increasing the reliability of exploration-subsalt deposits seismic research methods.

The known method of seismic exploration, including excitation. And registration of refracted and refracted diffracted waves. At the same time, all systems include registration of elongated travelgraphs of waves. From several explosion points located on the surface of the joint venture.

But under conditions of large angles of inclination of the investigated surface, waves that underwent a single reflection or refraction from a steep surface, or do not reach the day surface, or go to it at large distances. This reduces the accuracy of the mapping, while the interference waves practically either do not receive any attenuation at all, or, if they receive

10 (by grouping sources or receivers), then insufficient.

The method of seismic prospecting of steep slopes (salt domes) is also known with the help of elongated reflection waves from subsalt boundaries. This method uses a system of oncoming and catching hodographs, the registration of waves takes place in the range of 10-25 km L21.

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Claims (2)

The disadvantage of the method is the low depth and the accuracy of the mapping of the steep slope, since the useful reflected wave is recorded only at a large distance (10-25 km), and the wave is not traced to the point where the distance is broken. low-speed wave-interference. The purpose of the invention is to increase the interference resistance of seismic prospecting, depth of exploration, accuracy of mapping of steeply inclined interfaces. This goal is achieved by the fact that the excitation and reception of oscillations are made at points located along the fall .; the surface under investigation, the interval between the points of reception and excitation is chosen not less than twice the distance between the point of explosion and the projection of the edge part of the surface under investigation onto the observation line and recorded, from the common point of double reflection. The drawing shows the scheme of the implementation of the proposed method. The method is carried out as follows. The excitation and registration of the waves is carried out by successive movement of the explosion points and reception in the direction of the falling-investigated surface, and the interval between the reception and explosion points is chosen on the day surface at least twice the distance of the explosion point - the projection of the edge part-of the surface under study on the observation. The position of the reception and explosion points provides for the registration of waves with double reflection (duplex waves) in the region of their existence. The registration of the waves is carried out with delays that ensure the in-phase summation of the duplex waves. from obp (their double reflection points located on the surface under study. Such registration of duplex waves ensures their minimal distortions and maximum attenuation of interference waves). A duplex wave is a wave that has undergone a double reflection from the studied-steeply-inclined border, and then any hollow boundary, for example, in supra-sedimentary or subsalt deposits. Under the common point of double reflection, is meant such a point of reflection on a steeply bounded surface, which for a family of rays emanating from p The local excitation points have one single ordinate of reflection of the duplex wave. A seismic wave with two acts of reflection, for example, from the steep slope of the salt dome and from one of the suprasalt boundaries, has a hodograph equation that is a hyperbola, and its minimum is removed from the point an explosion in the direction of a steeply inclined surface at a double distance puikt excitation - the projection of the edge part of the investigated surface on the observation line (drawing). It can also be shown that the optimal registration interval for a duplex wave is located downstream of the surface under study, and in the case of a steep surface, the length of the region of existence of this wave is minimal. As for the case of the formation of a common point of double reflection with the participation of a subsalt boundary, and for the case of the formation of a common point of double reflection with the participation of a suprasalt boundary, the points of explosion and reception must be located on the surface downward. The main idea of accumulating signals by the proposed method is to combine several paths into one so that the result is presented as a sum of common-mode oscillations. In the case of when the medium is homogeneous and the reflecting boundaries of the JTOT image are rectangular, a step of the hodograph equation is duplex-wave, according to the proposed method, it looks like: t Сос, хс) - / C2h оCv-2xf Atf, where t is the time of wave arrival at points from X to the observation interval; Vt is the rate of its spread; h is the depth of the suprasalt boundary; Xi xj; - distance from the point of excitation to the registration point. The hodograph t (X, Xj,) is one-parameter, where the parameter is the quantity Xi, with its fixed value. Represents a proper hyperbole, the minimum of which is at the point / 2h ± aci .. 2К / h ± OCi. (SS, mimim) 5 where h |, is the normal distance from the point of excitation to the continuation of the sloping boundary T is the double propagation time of oscillations along this path. The decomposition in Taylor's series leads to the expression t (x, acO-U (ocO. X VtoCcxO PVtMXL) where to (OC) (3tV3C F Mr is the time of registration of the duplex wave at the origin of the XO coordinate system. Therefore, when entering the kinematic corrections Atn (X, X {,) t (X, Xi) to (Xi,) in each trace of the Xj const seismogram, the axes of synphasic waves of duplexes are tied to the line to (Xi.) Const. The time to (Xt) exactly corresponds to the time t (X1) of the MOV wave scanner with two acts of reflection when the receiver is removed from the point of explosion at a distance X (,. Thus, summing up the right axes and assigning the resulting axis Into the point O there will be an increase in the intensity of the signals of the wave duplexes distributed over the hodograph, proportional to the number of selected paths or points of reception in / TG times. The proposed method of seismic exploration, including the placement of points of explosion and reception 3 as well as the registration of reflected waves on a common point of double reflection from a steeply inclined surface, compared with lime, has a higher noise immunity to wave interference, recorded near points of an explosion, increased depth and higher precision, and therefore allows to significantly increase the efficiency of seismic exploration. Claims of Invention A seismic survey method based on the excitation and recording of elongated ones. hodographs of several reflected points of the explosion located on the surface, distinguished by the fact that, in order to improve the noise immunity, depth of investigation, accuracy of mapping of a steeply inclined surface, excitation and reception of vibrations are performed at points located along the fall of the surface under study, the interval between the receive and excitement bursts. select at least twice the distance between the point of explosion and the projection of the edge part of the surface under investigation onto the observation line and record the waves from s double reflection point. Sources of information taken into account in the examination 1. Geophysics handbook. T.1U. M., Nedra, 1966, p. 2.Tronetsky V.T. The use of an elongated travelgraph of the waves reflected from the salt boundaries in order to study the shape of the core of the salt domes. - Exploration geophysics. M., Nedra, 1968, № -1, p. 13 (prototype).  -: SK: X K- nynKfnbi BosSyjkffeMu / t / 1- reception points i t f