SU1520458A1 - Method of recognizing underwater grounds in shelf zones - Google Patents

Abstract

The invention relates to geophysical methods of exploration, in particular to the geoacoustic method for studying underwater soils, and can be used in engineering and geological studies of the structure of rocks composing the bottom. The aim of the invention is to simplify the method for the on-line visual determination of the nature of bottom soils. To achieve the goal between the receiver and the emitter, installed on a common hard base at a distance of at least three radiated wavelengths, form a direct channel of a constant acoustic link at 0.5. 1 il.

Description

The invention relates to geophysical methods of exploration, in particular, to a geoacoustic method for studying underwater soils, and can be used in engineering and geological studies of the structure of rocks composing the bottom of a reservoir.

The purpose of the invention is to simplify the method for the operational visual determination of the nature of bottom soils.

The drawing is a block diagram explaining the implementation of the method.

The block diagram includes a synchronizer generator 1 consisting of a storage device 2 and a mechanical start unit 3, an emitter 4. The drawing also shows a radiated wave 5 propagating towards the bottom, and a direct wave 6, a receiver 7, an amplifier 8, electron beam oscilloscope 9 and the recorder 10.

The method is carried out as follows.

An electrical impulse from the accumulator 2 through the mechanical triggering unit 3 is applied to pushing out 4, the acoustic signal is radiated towards the bottom and along the forward link.

A pulse and a direct wave pulse reflected from the bottom surface are received by receiver 7, converted into electrical signals, amplified by amplifier 8, and fed to a screen of an electron beam oscilloscope 9. From the second output of amplifier 8 a signal (fed to recorder 10.

The method is designed to investigate the nature of bottom soils at shallow depths (up to 200 m) and in between

1h5

About 4

cl

00

ki time at which the variation of water parameters can be neglected.

i

For frequency magnetostrictive

the 10 kHz vibrator and the speed of sound propagation in water m / s. The radiated wavelength is l / 15 cm. The emitter and receiver are installed at a distance of at least three emitting wavelengths on a common basis (for example, for fiberglass laminate, the wavelength the base for the specified frequency (cm) makes it possible to eliminate reverberation between the receiver nodes of the transducer mount.

Claims (1)

Invention Formula The method of recognition of submarine soils of the shelf zones, including the excitation of acoustic pulses and the reception of reflected signals by which the nature of the soils is judged, which is characterized by the fact that, in order to simplify the method of operative visual determination of bottom soils, between the receiver and the radiator a straight channel with a constant acoustic coupling factor of 0.5, the receiver and emitter being installed on a common hard base at a distance of at least three emitted wavelengths. L ///////// ////////// w 7- m7 ///// ////////// STUDY