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Deep-sea seismic data acquisition towing cable based on deep-sea robot and acquisition method

A technology for seismic data and data acquisition, applied in the field of marine geophysical exploration, can solve problems such as difficulty in preventing tow cable production accidents, limited bottleneck in long-distance cable data transmission capacity, etc.

Pending Publication Date: 2021-05-18
OPTICAL SCI & TECH (CHENGDU) LTD
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Problems solved by technology

[0006] In order to solve the difficult problem of the limited long-distance cable data transmission capacity bottleneck of the marine seismic data acquisition cable composed of conventional three-component geophone pressurized electric hydrophones, the marine seismic data acquisition cable that is several kilometers or even tens of kilometers away from the towing operation ship The problem of power supply of numerous data acquisition sub-joints, and the difficulty of preventing the tail ends of the towlines from being entangled and causing potential production accidents during the operation of dozens of ultra-long seismic data acquisition towlines, the purpose of the present invention is to provide a deep-sea robot Specially tow the arrayed marine seismic data acquisition streamers in the deep sea for data acquisition of marine single-component or multi-component seismic data, and can directly measure single-component or multi-component marine seismic data in the depth of the ocean

Method used

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  • Deep-sea seismic data acquisition towing cable based on deep-sea robot and acquisition method
  • Deep-sea seismic data acquisition towing cable based on deep-sea robot and acquisition method
  • Deep-sea seismic data acquisition towing cable based on deep-sea robot and acquisition method

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Embodiment 2

[0049] Embodiment 2 Tens of acquisition streamers 1 in the acquisition streamers 1 provided in Embodiment 1 are laid in parallel on the seabed through two (a pair) deep-sea robots 11 connected to the head and tail of the streamers, and are placed on the bottom of the sea floor. The controllable airgun seismic sources 10 together form a seabed single-component or multi-component seismic data acquisition system (OBC), such as image 3 shown.

[0050] According to the construction design, the underwater controllable airgun seismic source 10 is towed by the source ship 8 along the direction perpendicular to the acquisition streamer 1 and excited point by point along the source line of the construction design, and the acquisition streamer 1 sunk on the seabed is used for synchronous and real-time acquisition Seafloor single-component or multi-component seismic data excited by airgun sources. The acquisition operation of seabed single-component or multi-component seismic data is co...

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Abstract

The invention provides a deep-sea seismic data acquisition towing cable based on a deep-sea robot and an acquisition method. The deep-sea robot is used for towing the array type marine seismic data acquisition towing cable in the deep sea, and single-component or multi-component marine seismic data can be directly acquired in the deep sea. The pull-type or bottom-sinking array type marine seismic data acquisition cable is composed of three-component wave detectors or sensors, piezoelectric crystals or optical fiber sound pressure hydrophones and electronic or optical fiber three-component attitude sensors, wherein the three-component wave detectors or sensors, the piezoelectric crystals or the optical fiber sound pressure hydrophones and the electronic or optical fiber three-component attitude sensors are evenly distributed in the cable. The head end and the tail end of each seismic data acquisition towing cable are respectively towed by a deep-sea robot; the cable is connected with a seismic data acquisition and storage instrument or a modulation and demodulation instrument on the deep-sea robot; and a high-precision chip-level atomic clock in the seismic data acquisition and storage instrument or the modulation and demodulation instrument is used for timing the acquired marine seismic data and carrying out time synchronization and data processing on excitation signals of an underwater controllable air gun seismic source in the later period.

Description

technical field [0001] The invention belongs to the technical field of marine geophysical exploration, and relates to a deep-sea seismic data collection streamer and a collection method based on a deep-sea robot. Background technique [0002] There are three main methods of marine seismic data acquisition at present, one is single-component, two-component, three-component or four-component towed marine seismic data acquisition cable (Streamer) towed at the stern of the acquisition operation ship, marine seismic data acquisition streamer such as ION Various seismic streamers (Streamer) produced and sold by companies such as , Sercel and OYO Geospace. The other is that the three-component or four-component ocean bottom seismic data acquisition cable (OBC) sinks into the seabed, and the other is that the independent three-component or four-component ocean bottom seismic data acquisition stations (OBS and OBN) sink to the bottom, and the independent marine seismic air gun The e...

Claims

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Application Information

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IPC IPC(8): G01V1/38G01V1/18G01V1/20G01V1/22
CPCG01V1/189G01V1/201G01V1/22G01V1/3808
Inventor 余刚刘海波全海燕徐朝红王熙明夏淑君
Owner OPTICAL SCI & TECH (CHENGDU) LTD
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