RU2576625C2 - Apparatus for generating seismic waves in water medium - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: operation of the disclosed device is based on using repulsive forces arising in an impulse force exciting source placed in a sealed housing and moving in the investigated medium in the form of pressure pulses, while exciting elastic vibrations in the required direction in said medium. The value of the pressure pulses and the direction of propagation of the elastic vibrations is provided due to that the corresponding shape of the sealed housing enables to use the surrounding water medium as a supporting surface which generates resistance to the movement of the sealed housing towards the surface of the water medium. The apparatus comprises a floating means, a sealed housing in which an actuating pulse source is placed and a windlass. The sealed housing is made of two parts, capable of relative movement along the vertical axis in opposite sides, and the upper surface of the housing has a much larger area than the lower surface.

EFFECT: high quality of the obtained information.

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Description

The invention relates to a device for conducting geophysical exploration of minerals in the aquatic environment and can be used when conducting work in marine seismic exploration for oil and gas.

When conducting geophysical work in water areas, pulsed sources of seismic signals are most widely used (Seismic exploration. Geophysics Handbook. / Ed. By II Gurvich, VP Nomokonov. - M .: Nedra, 1981, 464 p.). When they are triggered in water, several pressure waves are excited. The effectiveness of these sources is determined by the ability to control the excitation process, as well as the completeness of the transfer of radiation energy, the spectrum of which is in the seismic frequency range.

At present, a source of seismic signals for water areas is known (RF patent No. 2194291 C1, priority 25.06.2001, MKI G01V 1/02), which contains a body emitting seismic energy made in the form of a bearing multifaceted plate, tubular springs are fixed on each of its lateral faces (“Bourdon tubes”), the internal cavities of which are interconnected and connected to the supply line of the hydraulic system, as well as a control unit that supplies the working fluid with a pulsating flow through the channels of the supply line to the internal bands and tubular spring. Under the influence of the pressure of the working fluid, the tubular springs unbend and act on the water, when the pressure is released, the tubular springs under the action of their own elastic forces take their original shape, while acting on the water in the opposite direction. The frequency and amplitude of these effects is formed by the control unit. The disadvantage of this source is the presence of spurious oscillations during pressure relief, which distort the seismogram and make it difficult to decipher the seismic materials.

Known marine seismic acquisition complex (MSRC) (RF patent No. 2364893 C1, priority 03/26/2008, MKI G01V 1/02). It includes: floating vehicle (PS); a tight cylindrical capsule, lowered to the bottom of the reservoir, a cable for hanging the capsule to a floating vehicle. At the bottom of the capsule is a source of seismic vibrations with a cylindrical pan and shock plate. Moreover, the design comprises an electric motor with a gearbox and a vertically lowered shaft with a worm pair for rotation of the tap of the sealing mechanism of the charging window of the source. The capsule body in the node of connection with the suspension cable and in the node of connection with the pallet of the oscillation source is equipped with shock absorbers. MSRK works as follows. The capsule sinks to the bottom of the pond and is pressed against it by its weight. When fired, the plunger acquires the required speed and “jumps” up to a height of 1.5-2 m, and the mortar acts on the ground with a slab. With soft soil, its deformation is possible, which is perceived by shock absorbers. When the plunger falls back through the plate, it acts on the soil a second time, creating a second shock impulse equal in power to the first. MSRK of this type allows seismic exploration without lowering the capsule to the bottom of the reservoir. In this case, it is necessary to use a plate of a significantly larger diameter. The disadvantage of this source is the design complexity and the need to use a heavy plunger, which limits the possibility of its use in marine seismic exploration.

The closest analogue selected as a prototype is a method of exciting seismic vibrations (RF patent No. 2381528 C1, priority 08/28/2007, IPC G01V 1/02), based on the use of repulsive forces arising in the energy converter. A device that implements the claimed method contains an energy converter, a base, which is a base plate and transmits repulsive forces impulses arising in the medium when a main current pulse is applied to the medium, a sealed cylindrical body, mounted on the base of the emitter (base plate), guide racks, electrodynamic load and electrodynamic shock absorber. The working body of this device is an electrodynamic energy converter installed in the emitter housing, consisting of two electrodynamic elements in the form of a solenoid and a disk, one of the elements being rigidly fixed to the base of the emitter, and the other has the possibility of free movement in the vertical direction relative to the first. Energy in the form of a powerful current pulse is supplied to the solenoid, and in the electrodynamic converter it is converted into a repulsive force pulse. A force impulse is transmitted to the soil through the base of the emitter, rigidly connected with one of the electrodynamic elements, exciting elastic vibrations in it. As a result of the repulsive forces, the upper electrodynamic element with a load moves upward along the guide racks, and the reaction of the lower electrodynamic element is converted into a force impulse, which is transmitted through the base of the emitter to the ground, exciting elastic vibrations in it.

When the action of the electric pulse ceases, the magnetic and electric fields disappear and the moving electrodynamic element under the influence of gravity returns to its original position.

To partially quench the parasitic kinetic energy of the moving element of the electrodynamic transducer and prevent parasitic shock distorting the seismogram, an electrodynamic load and an electrodynamic shock absorber operating on the same principles as the electrodynamic energy transducer are provided in the emitter design.

The disadvantage of this source is the design complexity and the need to use a heavy load, which limits the possibility of its use in marine seismic exploration.

The task is to create a simple device for exciting seismic waves, which can significantly simplify the design and improve the quality of the information obtained by reducing interference from secondary waves.

A device for creating seismic waves in an aqueous medium contains a floating means immersed in an aqueous medium, a bottom space or a sealed housing lowered to the bottom, in which a source of disturbing pulses (IVI) is placed, a winch that serves to lower the emitter to the required depth and orientation in space. In this case, the sealed housing is made of two parts having the possibility of mutual movement along the vertical axis in opposite sides relative to each other, and the upper surface of the emitter is significantly larger in area than its lower surface. The working body of the claimed device is located in a sealed enclosure energy converter (IVI), consisting of two elements: a solenoid and a disk made of a material with low electrical resistance, while one of the elements - a solenoid - is rigidly fixed to the lower base of the housing (emitter), and the other has the ability to move freely in the vertical direction relative to the first. As an IVI, any source can be used, for example, electro-induction, electro-hydraulic or electromagnetic.

The essence of the proposed device for exciting seismic vibrations is to use the repulsive forces that arise in the water source to excite vibrations in the aquatic environment, which are located in a sealed enclosure that transmits disturbances in the form of pressure pulses to the medium under study, exciting elastic vibrations in it. In this case, the solution of the problem is ensured by performing the form of a sealed enclosure, which allows the use of the surface of the medium as a support, preventing the housing from moving vertically upward and thereby the emergence of a secondary pulse wave.

When a current pulse passes through a solenoid, an alternating magnetic field is created in its core, which penetrates the second electrodynamic element, which is structurally made in the form of a conductive disk fixed to a non-conductive plate. Under the action of an alternating magnetic flux penetrating this element, an electric current arises in it, creating a magnetic field of opposite direction, as a result of which repulsive forces arise between the electrodynamic elements. As a result of the repulsive forces, the upper electrodynamic element abuts against the upper base of the housing. In this case, the kinetic energy obtained by him as a result of a force impulse is balanced by the potential energy of a liquid column acting on the upper base of the sealed housing, and the reaction of the lower electrodynamic element is converted into a force impulse, which is transmitted to the aqueous medium through the base of the emitter, causing elastic vibrations in it.

When the action of the electric pulse ceases, the magnetic and electric fields disappear and the movable electrodynamic element under the action of return springs returns to its original position. At the same time, damping springs are used to damp the kinetic energy of the moving element and prevent the force interaction of electrodynamic elements, distorting the seismogram.

In FIG. 1 shows a diagram of a device interacting with the onboard part of a research vessel; in FIG. 2 shows the design of the emitting device.

The device comprises a floating means 1, immersed in an aqueous medium, a bottom space or a radiator lowered to the bottom, made in the form of a sealed enclosure 2, consisting of two parts movable relative to each other, in which a source of disturbing pulses (IVI) 3, a winch 4, serving to lower the sealed enclosure to the required depth and orientation in space.

In this case, the upper and lower parts of the sealed housing 2 are interconnected by a locking device, for example, a bayonet type and have the possibility of mutual movement along the vertical axis in opposite sides to each other. The upper surface of the sealed enclosure significantly exceeds the area of its lower surface. The tightness of the housing is provided by bellows 5.

As an IVI, any source, for example, electro-induction, electro-hydraulic or electromagnetic, can be used, which consists of two elements located one above the other, one of which is a flat solenoid 6, fixed in the groove of the steel plate 7, rigidly connected to the base 8 of the sealed housing, and the other is a disk 9 of a material with a low value of electrical resistance, mounted on a plate 10 made of a durable non-conductive material, such as caprolon, which firmly connected to the upper base of the emitter 2.

To damp the parasitic kinetic energy of the moving elements 7 and 8, damping 11 and return 12 springs are used, the force of which is calculated in such a way as to ensure soft contact of the IVI elements 7 and 9 when they touch after removing the exciting pulse.

The excitation of seismic oscillations occurs as follows: energy, in the form of a powerful current pulse, is supplied to the solenoids of the electrodynamic energy converter, in which it is converted into a force pulse acting along the IVI axis, causing the electrodynamic elements to repel each other. In this case, the reaction of the lower element of the electrodynamic energy converter is transmitted through the base of the sealed enclosure in the form of a pressure impulse to the medium under study, exciting elastic vibrations in it. This process takes place within a short time of the action of an electrical impulse, which makes it possible to obtain a large pressure pulse force (push).

The upper element of the electrodynamic energy converter under the action of the electrodynamic repulsion force directed upward abuts against the upper base of the housing. In this case, the kinetic energy received by him as a result of a force impulse is balanced by the potential energy of the liquid column acting on the upper base of the sealed enclosure.

After the termination of the action of the force pulse, the lower element of the electrodynamic energy converter under the action of return springs smoothly returns to its original state, overcoming the resistance of the damper springs.

The technical result is expressed in the elimination of secondary waves, a significant increase in impulse pressure on the test medium compared to known devices of a similar type, effective damping of spurious oscillations, simplifying the design and improving the accuracy of measurements.

The present invention allows to create a sufficiently light and efficient device for creating seismic waves and use it for seismic surveys in an aqueous environment.

Claims (1)

A device for exciting seismic waves, comprising: a floating tool, a sealed enclosure in which a source of disturbing pulses is located, a winch that serves to lower the emitting device to the required depth and orient it in space, characterized in that the sealed enclosure is made of two parts with the possibility of mutual displacements of each part along the vertical axis to opposite sides of each other, and the upper base of the housing significantly exceeds the area of its lower base.

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