A skeg mounts from the stern of a towing vessel and extends below the waterline. A channel in the skeg protects cables for steamers and a source of a seismic system deployed from the vessel. Tow points on the skeg lie below the water's surface and connect to towlines to support the steamers and sour
A skeg mounts from the stern of a towing vessel and extends below the waterline. A channel in the skeg protects cables for steamers and a source of a seismic system deployed from the vessel. Tow points on the skeg lie below the water's surface and connect to towlines to support the steamers and source. A floatation device supports the source and tows below the water's surface to avoid ice floes. The streamers can have vehicles deployed thereon for controlling a position on the streamer. To facilitate locating the streamers, these vehicles on the streamers can be brought to the surface when clear of ice floes so that GPS readings can be obtained and communicated to a control system. After obtaining readings, the vehicles can be floated back under the surface. Deploying, using, and retrieving the system accounts for ice at the surface in icy regions. In addition, handling the seismic record can account for noise generated by ice impact events.
대표청구항▼
1. A marine seismic surveying apparatus for obstructed waters, the apparatus comprising: a skeg mounting on a stern of a vessel, the skeg extending below the stern and defining at least one passage extending at least below a waterline of the vessel, the at least one passage protecting one or more ca
1. A marine seismic surveying apparatus for obstructed waters, the apparatus comprising: a skeg mounting on a stern of a vessel, the skeg extending below the stern and defining at least one passage extending at least below a waterline of the vessel, the at least one passage protecting one or more cables of a marine seismic system passing from the vessel to below the waterline. 2. The apparatus of claim 1, wherein the skeg comprises one or more tow points disposed thereon below the waterline and connecting to one or more towlines of the marine seismic system. 3. The apparatus of claim 2, wherein the skeg comprises a base disposed on a distal end thereof, the base having the one or more tow points. 4. The apparatus of claim 1, wherein the skeg is temporarily or permanently affixed to a hull of the vessel. 5. The apparatus of claim 1, further comprising at least one source of the marine seismic system deployed from the vessel, the at least one source having at least one source cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one source cable in the at least on passage. 6. The apparatus of claim 5, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one source. 7. The apparatus of claim 5, further comprising a floatation device supporting the at least one source in the water. 8. The apparatus of claim 7, wherein the floatation device comprises a plurality of buoys connected to the at least one source and towing below the surface of the water. 9. The apparatus of claim 7, wherein the floatation device tows below the surface of the water and comprises at least one volume fillable for buoyancy control. 10. The apparatus of claim 1, further comprising at least one streamer deployed from the vessel, the at least one streamer having at least one streamer cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one streamer cable in the at least one passage. 11. The apparatus of claim 10, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one streamer. 12. The apparatus of claim 10, further comprising a deployed device disposed on the at least one steamer, the deployed device controlling a position of at least a portion of the at least one streamer in the water. 13. The apparatus of claim 12, wherein the deployed device comprises a receiver disposed thereon for obtaining global positioning system information. 14. The apparatus of claim 12, wherein the deployed device operated in a first condition tows below the surface of the water, and wherein the deployed device operated in a second condition tows near the surface of the water. 15. The apparatus of claim 12, wherein the deployed device comprises a vehicle disposed on a distal end of the at least one streamer and controllable in lateral and vertical positions in the water. 16. The apparatus of claim 10, wherein the at least one streamer comprises a deployed device disposed thereon, the deployed device comprising: an element producing drag when towed by the at least one streamer through the water; anda buoy having a receiver for obtaining global positioning system information, the buoy extending from the element to a surface of the water by a tether line. 17. The apparatus of claim 1, wherein the skeg comprises a trailing edge, and wherein the at least one passage of the skeg defines at least one open channel in the trailing edge. 18. The apparatus of claim 17, further comprising a limiter retaining one of the one or more cables in the at least one passage. 19. The apparatus of claim 18, wherein the limiter attaches to the one cable, and wherein a slack line runs from the limiter and through the at least one passage, the slack line pulling the limiter with at least a portion of the one cable into the at least one passage through the at least one open channel. 20. The apparatus of claim 1, further comprising a source extending from the skeg in a vertical orientation, the source having a plurality of source elements disposed thereon; and wherein the apparatus comprises: a sensor detecting an angular orientation of the source elements relative to the vertical orientation, anda controller controlling activation of the source elements based on the detected angular orientation. 21. The apparatus of claim 1, wherein the skeg comprises: a first conduit having a first of the at least one passages,a second conduit having a second of the at least one passages and separated from the first conduit by an open space; anda base connected to the first and second conduits and connected to a hull of the vessel. 22. The apparatus of claim 1, wherein the at least one passage of the skeg comprising first and second passages extending from the stern of the vessel to a base of the skeg and disposed on either side of a single screw of the vessel, the base connected to a keel on the hull of the vessel. 23. The apparatus of claim 1, wherein the skeg extends from the stern of the vessel between at least two screws of the vessel. 24. The marine seismic surveying apparatus of claim 1, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal, the at least one streamer having at least one streamer cable as one of the one or more cables protected in the at least one passage of the skeg; andat least one controllable device disposed on the at least one streamer, the at least one controllable device having a vertical position controllable in the water relative to the surface of the water, the at least one controllable device having a receiver obtaining global positioning system information when positioned at least near the surface of the water. 25. The marine seismic surveying apparatus of claim 1, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal, the at least one source having at least one source cable as one of the one or more cables protected in the at least one passage of the skeg;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal; anda submersible flotation device being towed below the surface of the water and supporting the at least one source at a level in the water. 26. The marine seismic surveying apparatus of claim 1, wherein the apparatus further comprises: a seismic streamer of the marine seismic system towed from the skeg below the surface of water;a deployed device disposed at the end the seismic streamer and producing drag when towed by the seismic streamer;a buoy having a receiver for obtaining global positioning system information, the buoy extending from the end of the seismic streamer to the surface of the water; anda coupling connecting the buoy to the end of the seismic streamer and being breakable due to tension. 27. The apparatus of claim 1, wherein the apparatus further comprises the vessel having the skeg mounted thereon. 28. A marine seismic surveying apparatus for obstructed waters, the apparatus comprising: a skeg mounting on a vessel having a single screw and a hull, the skeg having a base connected to the hull and defining at least one passage extending below a waterline of the vessel, the at least one passage protecting one or more cables of a marine seismic system passing from the vessel to below the waterline,the at least one passage of the skeg comprising first and second passages extending from a stern of the vessel to the base of the skeg and disposed on either side of the single screw. 29. The apparatus of claim 28, wherein the skeg comprises one or more tow points disposed thereon below the waterline and connecting to one or more towlines of the marine seismic system. 30. The apparatus of claim 29, wherein the base has the one or more tow points. 31. The apparatus of claim 28, wherein the skeg is temporarily or permanently affixed to a hull of the vessel. 32. The apparatus of claim 28, further comprising at least one source of the marine seismic system deployed from the vessel, the at least one source having at least one source cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one source cable in the at least on passage. 33. The apparatus of claim 32, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one source. 34. The apparatus of claim 32, further comprising a floatation device supporting the at least one source in the water. 35. The apparatus of claim 34, wherein the floatation device comprises a plurality of buoys connected to the at least one source and towing below the surface of the water. 36. The apparatus of claim 34, wherein the floatation device tows below the surface of the water and comprises at least one volume fillable for buoyancy control. 37. The apparatus of claim 28, further comprising at least one streamer deployed from the vessel, the at least one streamer having at least one streamer cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one streamer cable in the at least one passage. 38. The apparatus of claim 37, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one streamer. 39. The apparatus of claim 37, further comprising a deployed device disposed on the at least one steamer, the deployed device controlling a position of at least a portion of the at least one streamer in the water. 40. The apparatus of claim 39, wherein the deployed device comprises a receiver disposed thereon for obtaining global positioning system information. 41. The apparatus of claim 39, wherein the deployed device operated in a first condition tows below the surface of the water, and wherein the deployed device operated in a second condition tows near the surface of the water. 42. The apparatus of claim 39, wherein the deployed device comprises a vehicle disposed on a distal end of the at least one streamer and controllable in lateral and vertical positions in the water. 43. The apparatus of claim 37, wherein the at least one streamer comprises a deployed device disposed thereon, the deployed device comprising: an element producing drag when towed by the at least one streamer through the water; anda buoy having a receiver for obtaining global positioning system information, the buoy extending from the element to a surface of the water by a tether line. 44. The apparatus of claim 28, wherein the skeg comprises a trailing edge, and wherein the at least one passage of the skeg defines at least one open channel in the trailing edge. 45. The apparatus of claim 44, further comprising a limiter retaining one of the one or more cables in the at least one passage. 46. The apparatus of claim 45, wherein the limiter attaches to the one cable, and wherein a slack line runs from the limiter and through the at least one passage, the slack line pulling the limiter with at least a portion of the one cable into the at least one passage through the at least one open channel. 47. The apparatus of claim 28, further comprising a source extending from the skeg in a vertical orientation, the source having a plurality of source elements disposed thereon; and wherein the apparatus comprises: a sensor detecting an angular orientation of the source elements relative to the vertical orientation, anda controller controlling activation of the source elements based on the detected angular orientation. 48. The apparatus of claim 28, wherein the skeg comprises: a first conduit having the first passage,a second conduit having the second passage and separated from the first conduit by an open space; andwherein the base is connected to the first and second conduits and is connected to a keel on the hull of the vessel. 49. The apparatus of claim 28, wherein the apparatus comprises the vessel having the skeg mounted thereon. 50. The marine seismic surveying apparatus of claim 28, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal, the at least one streamer having at least one streamer cable as one of the one or more cables protected in the at least one passage of the skeg; andat least one controllable device disposed on the at least one streamer, the at least one controllable device having a vertical position controllable in the water relative to the surface of the water, the at least one controllable device having a receiver obtaining global positioning system information when positioned at least near the surface of the water. 51. The marine seismic surveying apparatus of claim 28, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal, the at least one source having at least one source cable as one of the one or more cables protected in the at least one passage of the skeg;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal; anda submersible flotation device being towed below the surface of the water and supporting the at least one source at a level in the water. 52. The marine seismic surveying apparatus of claim 28, wherein the apparatus further comprises: a seismic streamer of the marine seismic system towed from the skeg below the surface of water;a deployed device disposed at the end the seismic streamer and producing drag when towed by the seismic streamer;a buoy having a receiver for obtaining global positioning system information, the buoy extending from the end of the seismic streamer to the surface of the water; anda coupling connecting the buoy to the end of the seismic streamer and being breakable due to tension. 53. A marine seismic surveying apparatus for obstructed waters, the apparatus comprising: a skeg mounting on a vessel having at least two screws, the skeg extending from a stern of the vessel between the at least two screws, the skeg defining at least one passage extending below a waterline of the vessel, the at least one passage protecting one or more cables of a marine seismic system passing from the vessel to below the waterline. 54. The apparatus of claim 53, wherein the skeg comprises one or more tow points disposed thereon below the waterline and connecting to one or more towlines of the marine seismic system. 55. The apparatus of claim 54, wherein the skeg comprises a base disposed on a distal end thereof, the base having the one or more tow points. 56. The apparatus of claim 53, wherein the skeg is temporarily or permanently affixed to a hull of the vessel. 57. The apparatus of claim 53, further comprising at least one source of the marine seismic system deployed from the vessel, the at least one source having at least one source cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one source cable in the at least on passage. 58. The apparatus of claim 57, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one source. 59. The apparatus of claim 57, further comprising a floatation device supporting the at least one source in the water. 60. The apparatus of claim 59, wherein the floatation device comprises a plurality of buoys connected to the at least one source and towing below the surface of the water. 61. The apparatus of claim 59, wherein the floatation device tows below the surface of the water and comprises at least one volume fillable for buoyancy control. 62. The apparatus of claim 53, further comprising at least one streamer deployed from the vessel, the at least one streamer having at least one streamer cable as one of the one or more cables of the marine seismic system, and wherein the skeg protects the at least one streamer cable in the at least one passage. 63. The apparatus of claim 62, wherein the skeg comprises at least one tow point disposed thereon below the waterline and connecting to a towline supporting the at least one streamer. 64. The apparatus of claim 62, further comprising a deployed device disposed on the at least one steamer, the deployed device controlling a position of at least a portion of the at least one streamer in the water. 65. The apparatus of claim 64, wherein the deployed device comprises a receiver disposed thereon for obtaining global positioning system information. 66. The apparatus of claim 64, wherein the deployed device operated in a first condition tows below the surface of the water, and wherein the deployed device operated in a second condition tows near the surface of the water. 67. The apparatus of claim 64, wherein the deployed device comprises a vehicle disposed on a distal end of the at least one streamer and controllable in lateral and vertical positions in the water. 68. The apparatus of claim 62, wherein the at least one streamer comprises a deployed device disposed thereon, the deployed device comprising: an element producing drag when towed by the at least one streamer through the water; anda buoy having a receiver for obtaining global positioning system information, the buoy extending from the element to a surface of the water by a tether line. 69. The apparatus of claim 53, wherein the skeg comprises a trailing edge, and wherein the at least one passage of the skeg defines at least one open channel in the trailing edge. 70. The apparatus of claim 69, further comprising a limiter retaining one of the one or more cables in the at least one passage. 71. The apparatus of claim 70, wherein the limiter attaches to the one cable, and wherein a slack line runs from the limiter and through the at least one passage, the slack line pulling the limiter with at least a portion of the one cable into the at least one passage through the at least one open channel. 72. The apparatus of claim 53, further comprising a source extending from the skeg in a vertical orientation, the source having a plurality of source elements disposed thereon; and wherein the apparatus comprises: a sensor detecting an angular orientation of the source elements relative to the vertical orientation, anda controller controlling activation of the source elements based on the detected angular orientation. 73. The apparatus of claim 53, wherein the apparatus comprises the vessel having the skeg mounted thereon. 74. The apparatus of claim 53, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal, the atleast one streamer having at least one streamer cable as one of the one or more cables protected in the at least one passage of the skeg; andat least one controllable device disposed on the at least one streamer, the at least one controllable device having a vertical position controllable in the water relative to the surface of the water, the at least one controllable device having a receiver obtaining global positioning system information when positioned at least near the surface of the water. 75. The apparatus of claim 53, wherein the apparatus further comprises: at least one source of the marine seismic system towed from the skeg below a surface of water and generating a seismic source signal, the at least one source having at least one source cable as one of the one or more cables protected in the at least one passage of the skeg;at least one streamer of the marine seismic system towed from the skeg below the surface of the water and detecting the seismic source signal; anda submersible flotation device being towed below the surface of the water and supporting the at least one source at a level in the water. 76. The marine seismic surveying apparatus of claim 53, wherein the apparatus further comprises: a seismic streamer of the marine seismic system towed from the skeg below the surface of water;a deployed device disposed at the end the seismic streamer and producing drag when towed by the seismic streamer;a buoy having a receiver for obtaining global positioning system information, the buoy extending from the end of the seismic streamer to the surface of the water; anda coupling connecting the buoy to the end of the seismic streamer and being breakable due to tension.
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