RU2156479C1 - Process of search for oil and gas fields in water area - Google Patents

Abstract

FIELD: search for oil and gas on shelf. SUBSTANCE: information signal in which capacity seismo-acoustic background of the Earth is used is recorded. Vibrations are generated in water without stopping of recording of information signal. Registration of information signal is continued after termination of generation. Recording is conducted simultaneously by three components by two three-component acoustic plants as minimum placed in leak-tight case. Acoustic plants are positioned on board of crafts in points minimally susceptible to natural oscillations of craft hull. Crafts are positioned equidistantly from source of generation of vibrations. Presence of oil and gas field is determined by emergence of infrasonic frequencies in spectral characteristics of information signal recorded both in process and after stopping of generation in comparison with spectral characteristics of information signal recorded before generation. EFFECT: enhanced speed of response and productivity of process. 9 cl, 2 dwg

Description

 The invention relates to the field of geophysical methods of searching for minerals, in particular oil and gas fields, in the water area, in particular on the shelf.

 A known method for determining the scattering coefficient of the seabed (SU, copyright certificate 1670647, G 01 V 1/38, 1991), also used to determine the presence of deposits on the shelf. The known method includes emitting from a moving ship signals in the form of sound pulses, receiving signals scattered in the opposite direction by an antenna with a radiation pattern in the horizontal plane is worse than in the vertical, registering the received signals at a given point in time and determining the characteristics of the seabed. The disadvantage of this method is to recognize the use of a moving ship, since the oscillations excited by the moving ship are superimposed on the radiated and reflected signals.

 There is also known a method of seismic exploration of the bottom of the water basin (SU, copyright certificate 1671026, G 01 V 1/38, 1992). According to the known method along the studied profile, the vessel is towed by seismic receivers and sources containing a water thrower, the seismic receivers are cyclically brought into contact with the bottom soil, and radiation, reception and registration of seismic signals are carried out, and the axis of the water throwing device is located in a plane perpendicular to the towing profile and intersects on the vertical axis of the source, towing seismic receivers and sources is carried out in the mode of their screen planning above the bottom in bottom of the pool, the introduction of sources into contact with the soil is carried out by at least a single synchronous throwing of water, and the emission of seismic signals is carried out by alternately throwing water up along the indicated axes. The disadvantage of this method should be recognized the complexity of its implementation, caused by the necessity of towing receivers and sources, as well as the difficulty of bringing in contact sources. All of the above leads to a decrease in the accuracy of the method.

 The closest technical solution is the way to search for oil and gas fields in the water area (RU, application 97121827, G 01 V 1/38, 1999). The known method includes generating oscillations in water, recording an information signal located at the bottom of the water acoustic systems and mathematical processing of the information signal, and the registration of the information signal, which is used as a seismic-acoustic background of the Earth, begin before oscillation generation and end after the generation ceases, while the information signal register with at least two three-component acoustic systems simultaneously for all components m, and the presence of oil and gas field is determined by the appearance of infrasound frequencies in the spectral characteristics of the information signal recorded during and after termination of generation of the spectral characteristics with respect to the information signal recorded to generate. The disadvantage of this method is to recognize its duration, due to the need to lower and raise the acoustic units to the bottom of the water area, as well as the possible mismatch between the registration components by the units, since the units can be located not on the same plane.

 The technical problem solved by the present invention is to improve the known method.

 The technical result obtained as a result of the implementation of the invention consists in increasing the speed of the method and, consequently, the search performance.

 To achieve the indicated technical result, an information signal is recorded, which uses the Earth's seismic-acoustic background, without stopping the registration of the information signal, oscillations in water are generated, the signal is registered after the oscillation is stopped, the information signal is recorded simultaneously by at least two three-component acoustic installations placed in sealed enclosures, simultaneously for all components, the presence of an oil and gas field I determine by the appearance of infrasonic frequencies in the spectral characteristics of the information signal recorded during and after the generation is stopped relative to the spectral characteristics of the information signal recorded before generation, and the three-component acoustic installations are placed on the sides of the craft in places that are minimally prone to natural vibrations of the hull of the craft, while the craft removed at the same distance from the source of oscillation generation. Typically, three-component acoustic systems are positioned at an arbitrary distance from each other, but preferably they are placed at a distance of 300 to 400 m from each other. Advantageously, the information signal is recorded for 10-20 minutes before the start of oscillation generation and for at least 5 minutes after the termination of oscillation generation. Typically, oscillations are generated for at least 5 minutes. Non-self-propelled and / or non-mechanical devices (barges, rowboats) are preferably used as watercraft. In the measurement process, the boats are preferably anchored. In the case of using watercraft with their own propulsion device, a place is experimentally preliminarily chosen on the sides of the watercraft in which the influence of the propulsion device on the recorded signal is minimal. It is preferable to turn off all possible sources of oscillation of the hull of the craft in the process of recording a signal on a watercraft with three-component acoustic systems.

 The invention will be further disclosed using the drawings. In FIG. 1 shows a diagram of an embodiment of the invention; in FIG. 2A shows the spectra obtained with the known absence of an oil and gas field; in FIG. 2B shows the spectra obtained with the known presence of an oil and gas field. When implementing the invention, two watercraft 1,2 are used, on which three-component acoustic systems 3,4 are installed, a watercraft 5, on which the generated signal source 6 is located, the relative spectrum 7 obtained by comparing the spectrum recorded during the oscillation generation with the spectrum recorded before oscillations were generated when the watercraft with three-component acoustic systems were located in the place where the field was absent, the relative spectrum 8 obtained by a similar Uteem when placing the three-way speaker systems over the mine.

 The invention is implemented as follows. Above the bottom of the water area, an anchor craft (self-propelled barge) 5 is mounted on which the source 6 of the vibrations is located. At a distance of 550 m from the vessel 5, 1.2 are installed on the anchors of the vessel (rowboats) with three-component acoustic installations 3.4. Each 3.4 installation is connected through a preamplifier and ADC to the processor. Any three-component acoustic system capable of detecting acoustic vibrations in the infrasonic range can be used. By a single time signal, the registration of the earth's seismic background as an information signal is started. 15 minutes after the start of the signal recording, the source 6 generates acoustic oscillations within 6 minutes. The registration of the information signal is continued both during the generation of the vibrations and for 10 minutes after the termination of the acoustic vibrations. Then the watercraft 1,2,5 move along the profile for 1000 m from the previous point and repeat the measurement cycle. The relative spectrum 7, obtained obviously outside the field, is shown in FIG. 2A. The relative spectrum 8 obtained obviously over the field is shown in FIG. 2B.

 The time taken to move the watercraft is incomparably shorter than the time taken to move the three-component acoustic systems, which improves the speed of the method and, consequently, its productivity.

Claims (10)

 1. A method of searching for oil and gas deposits in the water area, including recording an information signal, using the earth's seismic acoustic background, generating, without stopping the registration of an information signal, fluctuations in water, the end of registration after the end of generation, and registration is carried out simultaneously by at least two three-component acoustic installations placed in a sealed enclosure, simultaneously for three components, while the presence of an oil and gas field determines They are distinguished by the appearance of infrasonic frequencies in the spectral characteristics of the information signal recorded during and after the generation was stopped, relative to the spectral characteristics of the information signal recorded before generation, characterized in that the three-component acoustic systems are placed on the sides of the craft in places that are minimally prone to natural vibrations of the hull of the craft, moreover, the watercraft are removed at equal distances from the source of oscillation generation.  2. The method according to p. 1, characterized in that the three-component installation is placed at an arbitrary distance from each other.  3. The method according to p. 2, characterized in that the three-component installation is placed at a distance of 300 - 400 m from each other.  4. The method according to claim 1, characterized in that the information signal is recorded for 10 to 20 minutes before the start of oscillation generation.  5. The method according to claim 1, characterized in that the generation of oscillations is carried out for at least 5 minutes  6. The method according to p. 1, characterized in that the registration of the information signal is carried out for at least 5 minutes after the generation of oscillations is stopped.  7. The method according to claim 1, characterized in that the use of non-self-propelled and / or not having mechanical engines of the craft.  8. The method according to p. 1, characterized in that in the process of measuring the craft are anchored.  9. The method according to claim 1, characterized in that when using watercraft with their own propulsion device, places in which the influence of the operation of the propulsion device on the recorded signal is minimal are preliminarily experimentally selected on board the watercraft.  10. The method according to p. 8, characterized in that in the process of registration on the craft, all possible sources of oscillation of the body of the craft are turned off.

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