RU2013123037A - SELF-LIFTING DRILLING MARINE BASIS OF THE ICE CLASS - Google Patents

Abstract

1. Self-elevating ice class drilling rig for drilling for oil and gas in potentially ice conditions on coastal marine areas, comprising: a floating hull having a relatively smooth deck in its upper part and an ice-curving shape in its lower part, extending down and inward around the perimeter hull, and the ice-bending form extends from the hull zone near the deck level and goes down to the zone near the hull bottom; a section of the ice deflector passing around the perimeter of the hull bottom to direct ice around housing and not under the hull; at least three supports installed inside the perimeter of the bottom of the floating hull, while the supports are capable of lifting from the seabed to tow the rig through shallow water, as well as extension to the seabed and additional extension for lifting the hull partially or completely from water; and a self-lifting device connected to each support, both for lifting the support from the seabed, so that the ice class self-lifting drilling rig can float due to the buoyancy of the hull, and pushing the supports down to the seabed and pushing the hull completely out of the water when there is no ice. 2. The self-elevating drilling rig according to claim 1, further comprising a securing mechanism connected to the shoe of each support, to create additional resistance to the forces that floating ice floes transmit to the drilling rig. The self-elevating drilling rig according to claim 1 or 2, in which the ice-curving surface deviates up and out from the neckline of a reduced size to a ledge of an increased size

Claims (20)

1. Self-elevating ice class drilling rig for drilling for oil and gas in potentially ice conditions on coastal sea areas, containing: a floating hull having a relatively smooth deck in its upper part and an ice-bending shape in its lower part extending downward and inward around the perimeter of the hull, the ice-bending form extending from the hull area near the deck level and going down to the area near the bottom of the hull; a section of an ice deflector passing around the perimeter of the bottom of the hull to direct ice around the hull and not under the hull; at least three supports installed inside the perimeter of the bottom of the floating hull, while the supports are capable of lifting from the seabed to tow the rig through shallow water, as well as extension to the seabed and additional extension to lift the hull partially or completely out of the water; and a self-lifting device connected to each support, both for lifting the support from the seabed, so that the ice-class self-lifting drilling rig can float due to the buoyancy of the hull, and pushing the supports down to the seabed and pushing the hull completely out of the water when there is no ice. 2. The self-elevating drilling rig according to claim 1, further comprising a locking mechanism connected to the shoe of each support, to create additional resistance to the forces that the floating ice floes transmit to the drilling rig. 3. Self-elevating drilling rig according to claim 1 or 2, in which the curving ice surface deviates upward and outward from the neckline of a reduced size to a ledge of an increased size. 4. The self-elevating drilling rig according to claim 1 or 2, wherein the ice-curving surface extends vertically at least 8-10 meters or more. 5. Self-elevating drilling rig according to claim 3, in which the curving surface of the ice extends vertically at least 8-10 or more meters. 6. Self-elevating drilling rig according to claim 4, in which the angle of the curving surface of the ice has a value in the range of 30-60º from the vertical. 7. Self-elevating drilling rig according to claim 5, in which the angle of the curving surface of the ice has a value in the range of 30-60º from the vertical. 8. A self-elevating drilling rig according to any one of claims 1, 2 or 5-7, wherein the ice-curving surface comprises a plurality of relatively smooth inclined sections extending around the periphery of the drilling rig. 9. The self-elevating drilling rig according to claim 3, wherein the ice-curving surface comprises a plurality of relatively smooth inclined sections extending around the periphery of the drilling rig. 10. The self-elevating drilling rig according to claim 4, in which the ice-curving surface comprises a plurality of relatively smooth inclined sections extending around the periphery of the drilling rig. 11. Self-elevating drilling rig according to any one of claims 1, 2, 5-7, 9 or 10, in which the ice-curving surface is a reinforced surface. 12. Self-elevating drilling rig according to claim 3, in which the curving surface of the ice is a reinforced surface. 13. Self-elevating drilling rig according to claim 4, in which the curving surface of the ice is a reinforced surface. 14. The self-elevating drilling rig of claim 8, wherein the ice-curving surface is a reinforced surface. 15. A method of drilling a well in waters prone to ice, in which: provide a drilling rig with a floating hull having a relatively smooth deck in its upper part and an ice-bending form in its lower part, the ice-bending form extending from the hull area near the deck level and extending down to the area near the bottom, and an ice deflector section passing around the perimeter of the bottom of the body for directing ice around the body and not under the body; provide at least three supports installed in the perimeter of the bottom of the housing; lower each support so that the shoes at the bottom of the supports come into contact with the seabed and lift the body up and out of the water when ice does not threaten the rig, when the rig drills a well at the drilling site; the body is lowered into the ice protection configuration, with the ice bending form passing above and below the sea surface to bend the ice supplied to the drilling rig, to immerse ice under water and apply bending forces breaking the ice, while the ice bypasses the drilling installation; and drill a well from a rig. 16. The method according to clause 15, further comprising the stage of fixing the support on the seabed for additional resistance to the forces of floating ice floes. 17. The method according to clause 15 or 16, in which the curving surface of the ice extends from the ledge to the neckline, and at the stage of lowering the hull into the water, in particular, the hull is lowered into the water so that the neckline is at least on 4 meters below the sea surface, and the ledge is at least 7 meters above the sea surface. 18. The method according to clause 15 or 16, further comprising the step of lifting the hull from the water when the threat from floating ice is reduced. 19. The method according to 17, further comprising the step lifting the hull out of the water when the threat from floating ice is reduced. 20. A method of drilling a well in waters prone to ice, comprising the use of a drilling rig according to any one of claims 1 to 14.