Disclosed are methods and systems for using a rigid-stem assembly comprising a plurality of interconnected rigid stems in a marine survey. An embodiment discloses a geophysical survey method comprising: deploying a rigid-stem assembly from a survey vessel into a body of water, wherein the rigid-stem
Disclosed are methods and systems for using a rigid-stem assembly comprising a plurality of interconnected rigid stems in a marine survey. An embodiment discloses a geophysical survey method comprising: deploying a rigid-stem assembly from a survey vessel into a body of water, wherein the rigid-stem assembly comprises a plurality of rigid stems that are interconnected and each comprise a stem body defining one or more interior chambers; towing the rigid-stem assembly from the survey vessel through the body of water; and either (1) detecting a geophysical signal with a sensor towed by the survey vessel, and/or (2) activating a geophysical source that is towed by the survey vessel. Also disclosed are survey systems and rigid-stem handling systems.
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1. A geophysical survey method comprising: deploying a rigid-stem assembly from a survey vessel into a body of water, wherein the rigid-stem assembly comprises a plurality of rigid stems that are interconnected end to end, wherein each of the rigid stems comprises a stem body defining one or more in
1. A geophysical survey method comprising: deploying a rigid-stem assembly from a survey vessel into a body of water, wherein the rigid-stem assembly comprises a plurality of rigid stems that are interconnected end to end, wherein each of the rigid stems comprises a stem body defining one or more interior chambers, wherein each of the rigid stems has a length of from about 1.5 meters to about 50 meters;towing the rigid-stem assembly from the survey vessel through the body of water; andeither (1) detecting a geophysical signal with a sensor towed by the survey vessel, and/or (2) activating a geophysical source that is towed by the survey vessel. 2. The method of claim 1, wherein the rigid-stem assembly functions as at least one of: a lead-in coupling a streamer to the survey vessel, a streamer bearing the sensor, or a source cable for towing the geophysical source. 3. The method of claim 1, wherein the rigid-stem assembly is coupled end-to-end to another rigid-stem assembly. 4. The method of claim 1, further comprising removing the rigid stems from a storage bin, the rigid stems being in a de-coupled state, interconnecting the rigid stems to form the rigid-stem assembly, and conveying the rigid-stem assembly to a detensioning apparatus that deploys the rigid-stem assembly into the body of water. 5. The method of claim 4, wherein the interconnecting the rigid stems comprises coupling stem joints between the rigid stems, wherein sliding sleeves on end portions of each of the rigid stems are moved to place the rigid stems in clamping engagement with the stem joints. 6. The method of claim 4, further comprising moving the rigid-stem assembly from the detensioning apparatus to a connection point on the stern of the survey vessel. 7. The method of claim 1, further comprising retrieving the rigid-stem assembly onto the survey vessel, wherein the step of retrieving the rigid-stem assembly comprises: pulling the rigid-stem assembly onto the survey vessel, decoupling the rigid stems, and placing the rigid-stem assembly in a storage bin, the rigid stems being in a de-coupled state in the storage bin. 8. A marine survey system, comprising: a survey vessel;a detensioning apparatus disposed on the survey vessel;a plurality of rigid stems disposed on the survey vessel, wherein each of the rigid stems comprises a stem body defining one or more interior chambers, and wherein each of the rigid stems has a length of from about 1.5 meters to about 50 meters; anda rigid-stem connection line configured to interconnect at least a portion of the rigid stems end to end to form an interconnected rigid-stem assembly. 9. The marine survey system of claim 8, further comprising the rigid-stem assembly, wherein the rigid-stem assembly is held by the detensioning apparatus and has a distal end in a body of water. 10. The marine survey system of claim 9, wherein the rigid-stem assembly is rigid for a length of about 25 meters or longer, the rigid-stem assembly having a smallest height or width of about 1 meters, and wherein the rigid-stern assembly has a bending stiffness of 700 Nm2 over the length of about 25 meters or longer. 11. The marine survey system of claim 9, wherein the rigid-stem assembly comprises at least one of a lead-in coupling a streamer to the survey vessel, a streamer bearing a sensor, or a source cable for towing a geophysical source. 12. The marine survey system of claim 11, wherein the sensor comprises a seismic sensor. 13. The marine survey system of claim 9, wherein the rigid stems each have a generally wing-shaped cross section. 14. The marine survey system of claim 9, wherein the rigid-stem assembly has a length in a range of from about 50 meters to about 1,000 meters. 15. The marine survey system of claim 9, wherein a flexible cable extends between the rigid stems. 16. The marine survey system of claim 9, wherein stem joints are disposed at intersections of the interconnected rigid stems for mechanically connecting the interconnected rigid stems to one another. 17. The marine survey system of claim 16, wherein end portions of the rigid stems each comprise a sleeve slidably movable on the respective end portion for holding stem joints in clamping position to mechanically connect the interconnected rigid stems to one another. 18. The marine survey system of claim 9, wherein the rigid-stem assembly is coupled to an end of another rigid-stem assembly comprising a plurality of interconnected rigid stems. 19. The marine survey system of claim 8, wherein the detensioning apparatus comprises a wheel pair. 20. A rigid-stem handling system, comprising: a storage bin holding a plurality of rigid stems having an elastic cable extending between the rigid stems, wherein each of the rigid stems comprises a stem body defining one or more interior chambers, and wherein each of the rigid stems has a length of from about 1.5 meters to about 50 meters;a rigid-stem connection line configured to receive the rigid stems from the storage bin and connect the rigid stems end-to-end to form a rigid-stem assembly comprising a plurality of interconnected rigid stems; anda detensioning apparatus configured to receive the rigid-stem assembly from the rigid-stem connection line and hold the rigid-stem assembly while deploying the rigid-stem assembly from a survey vessel. 21. The rigid-stem handling system of claim 20, wherein the storage bins comprise a pallet. 22. The rigid-stem handling system of claim 20, wherein the detensioning apparatus comprises a wheel pair. 23. A rigid-stem handling system comprising: a storage bin holding a plurality of rigid stems having an elastic cable extending between the rigid stems;a rigid-stem connection line configured to receive rigid stems from the storage bin and connect the rigid stems end-to-end to form a rigid-stem assembly comprising a plurality of interconnected rigid stems wherein the rigid-stem assembly is rigid for a length of about 25 meters or longer, the rigid-stem assembly having a smallest height or width of about 1 meters, and wherein the rigid-stem assembly has a bending stiffness of 700 Nm2 over the length of about 25 meters or longer; anda detensioning apparatus configured to receive the rigid-stem assembly from the rigid-stem connection line and hold the rigid-stem assembly while deploying the rigid-stem assembly from a survey vessel. 24. The method of claim 1, wherein the rigid-stem assembly is rigid for a length of about 25 meters or longer, the rigid-stem assembly having a smallest height or width of about 1 meters, and wherein the rigid-stem assembly has a bending stiffness of 700 Nm2 over the length of about 25 meters or longer.
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이 특허에 인용된 특허 (23)
Chelminski Stephen V. (West Redding CT), Airgun marine seismic survey streamer method and apparatus.
Goujon,Nicolas; Mobarekeh,Kambiz Iranpour; Martin,James Edward; Naes,Johan Fredrik; Voldsbekk,Rune Sindre, Housing for a seismic sensing element and a seismic sensor.
Goujon, Nicolas; Mobarekeh, Kambiz Iranpour; Martin, James Edward; Naes, Johan Fredrik; Voldsbekk, Rune Sindre, Housing for a seismic sensing element, and a seismic sensor.
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