SU958998A1 - Transverse seismic wave excitation method - Google Patents

Description

The invention relates to shear wave seismic exploration.

A known method of exciting transverse seismic waves using an explosive charge, based on the creation of asymmetry in the explosion zone, for example in the form of a camouflage cavity SI.

The disadvantage of this method is that the transverse wave excited in a given direction has a low intensity, when performing the opposite effects it is difficult to achieve their identity both in power and in the direction of energy radiation.

There is also known a method of exciting transverse seismic waves by a borehole camouflage source, which includes undermining the working charge near the camouflage cavity, the centers of charges and the camouflage cavity being located in the same horizontal plane. C 2].

The disadvantages of the method are that the maximum radiation intensity occurs at an angle of about 45 ° to the daytime surface and the minimum in the direction of the lower half-space. The method has a sharp amplitude non-identity of the plus and minus effects, which makes it difficult to trace reflections from deep horizons. The closest to the proposed method in terms of technical nature and the achieved effect is a method of exciting transverse ssmic waves by a borehole camouflage source, which includes undermining the working charge near the camouflage cavity, the center of which is located at a given radius, made from the 15th center of the working charge at an angle

135 ° to a given direction, for example vertical [3].

The disadvantage of this method is that 2Q that in the direction of the maximum measurement of the transverse wave even in the low-frequency range of waves, the ratio of the amplitudes of the transverse and longitudinal waves does not exceed unity.

The purpose of the invention is to increase the intensity of radiation of energy in the direction of the lower half-space.

The goal is achieved by the fact, that in the method of _claim excitation transverse seismic waves downhole KA3 .958998 mufletnym source comprising undermining working charge near kamufletnoy cavity, whose center is positioned at a given radius drawn from the center of the charge of working angle of 135 ° to the vertical direction 5 In the vicinity of the working charge, a second camouflage cavity is placed symmetrically to the first relative to the center of the working charge.

The drawing shows an example of the implementation of the method.

A camouflage cavity 1 is created, the center of which lies on a predetermined radius a, drawn from the center of the working charge 2, placed in the borehole 3, at an angle of approximately 135 ° to the vertical direction.

The second camouflage cavity 4 is located symmetrically to the first relative to the center of charge 3. Produce ²⁰ charge detonation.

To carry out the opposite effect, which is dictated by the specifics of work during shear wave seismic exploration, charge 5 and camouflage cavity 6 are placed in a vertical plane passing through charge 2 and camouflage cavity 4, symmetrically with respect to the vertical axis of cavity 4 and produce 30 blasting. Far from the source, transverse waves with a wavelength that is a multiple of twice the depth from the source to the day surface add up in phase, forming a transverse wave with 35 amplitude three times larger than the amplitude of the transverse wave formed by the source system with one camouflage.

To increase the radiation intensity in a direction different from the vertical by a certain angle, it is necessary to move the centers of both camouflages on an arc of a circle with the center in the center of the charge in the opposite direction by the same angle.

The distances between camouflage 4 and wells with charges, the values of camouflage cavities and charges, the depth of their laying depend on the specific seismic and geological conditions, the objectives of the work and are selected empirically.

The application of the proposed method allows to increase the intensity of the radiation of transverse waves in the vertical direction, and with it the effectiveness of seismic exploration.

Claims (1)

Claim A method for exciting transverse seismic waves by a borehole camouflage source, comprising blasting the working charge near the camouflage cavity, the center of which is located at a predetermined radius drawn from the center of the working charge at an angle of 135 ° to the vertical direction, characterized in that, in order to increase the intensity of energy radiation in the direction lower half-space, · near the working charge place the second camouflage cavity, symmetrically the first relative to the center of the working charge.