JPWO2021148765A5 - Conduit anchors, marine systems, and methods for placing conduit anchors - Google Patents

Description

Although various exemplary embodiments have been disclosed, it is understood that variations, modifications, and combinations of the valves and methods disclosed herein may be made without departing from the scope of the following claims.
According to this specification, the configurations described in the following items are also disclosed.
(Item 1)
A conduit anchor,
a base section;
a conduit guide extending from the base section;
the base section has a conduit attachment for securing a static conduit portion to the base section;
the conduit anchor defines a dynamic conduit path range available in use for a dynamic conduit portion extending distally from the conduit attachment through the conduit guide;
the conduit guide has a convex bend protection surface area oriented distally from the conduit attachment toward the dynamic conduit path region, the convex bend protection surface area being oriented distally from the conduit attachment toward the dynamic conduit path region; A conduit anchor extending at least partially around the passageway area.
(Item 2)
For use with the dynamic conduit section having a minimum bending radius, the radius of curvature of all portions of the convex bend protection surface area along the dynamic conduit path extent is such that A conduit anchor according to item 1, which is at or above the radius.
(Item 3)
3. A conduit anchor according to item 1 or 2, wherein when the conduit anchor is placed on the seabed, the dynamic conduit path extent extends distally from the conduit attachment generally along the seabed.
(Item 4)
4. The convex curved protective surface area extends over the dynamic conduit path extent to each side of the dynamic conduit path extent when the conduit anchor is placed on the seabed. Conduit anchor.
(Item 5)
3. A conduit anchor according to item 1 or 2, wherein when the conduit anchor is placed on the seabed, the dynamic conduit path extent extends distally from the conduit attachment generally away from the seabed.
(Item 6)
When the conduit anchor is placed on the seabed, the convex curved protective surface area extends completely around the dynamic conduit path extent and defines an opening surrounding the dynamic conduit path extent. 6. The conduit anchor of item 5, wherein the dynamic conduit portion extends through the opening in use.
(Item 7)
The convex bend protection surface area provides bend protection for the dynamic conduit portion extending through at least about 90 degrees or at least about 180 degrees along the dynamic conduit path extent. 7. A conduit anchor according to any one of 1 to 6.
(Item 8)
8. A conduit anchor according to any one of items 1 to 7, wherein the convex bend protection surface area has two or more convex bend protection surface sections.
(Item 9)
9. A conduit anchor according to item 8, wherein the or each convex bending protection surface section has a substantially partially circular cross section.
(Item 10)
The convex bend protection surface area has two, three, four, or more convex bend protection surface sections, and the convex bend protection surface sections define the dynamic conduit path area. A conduit according to item 9, having a semi-circular cross-section constructed from two, three, four or more lengths of circumferentially joined end-to-end tubular. anchor.
(Item 11)
11. The conduit anchor of item 10, wherein the convex bending protection surface area has three surface sections of partial cylindrical shape to surround three sides of the dynamic conduit path area.
(Item 12)
When the conduit anchor is placed on the seabed, the dynamic conduit path extent extends distally from the conduit attachment generally along the sea bed, and a fourth side of the dynamic conduit path extent extends distally from the conduit attachment generally along the seabed. is defined by the base section or the sea bed.
(Item 13)
When the conduit anchor is placed on the seabed, the dynamic conduit path area extends distally from the conduit attachment generally away from the seabed, and the convex bending protective surface area 11. The conduit anchor of item 10, having four surface sections of partial cylindrical shape defining an aperture with generally square or rectangular symmetry surrounding a dynamic conduit path area.
(Item 14)
14. A conduit anchor according to any one of items 1 to 13, wherein the conduit anchor is configured to be ballasted.
(Item 15)
the base section comprises a suitable location for placing or securing a ballast weight to the conduit anchor, and/or at least a portion of the base section and/or the conduit guide has a hollow structure; 15. The conduit anchor of item 14, and configured to be filled with ballast material.
(Item 16)
16. A conduit anchor according to any one of the preceding items, wherein the conduit attachment includes means for joining separate dynamic and static conduits.
(Item 17)
17. The conduit anchor of item 16, wherein the conduit attachment comprises a proximal end for attachment to the static conduit and a distal end for attachment to the dynamic conduit.
(Item 18)
The proximal end and the distal end of the conduit attachment are coaxial, or the proximal end and the distal end of the conduit attachment are angled with respect to each other, optionally 18. The conduit anchor of item 17, which is vertical in its selection.
(Item 19)
19. A conduit anchor according to any one of items 16 to 18, wherein the conduit attachment further comprises a strain relief device.
(Item 20)
20. The conduit anchor of item 19, wherein the strain relief device comprises a clamping device for clamping to a flange formation at or near a proximal end of a dynamic conduit.
(Item 21)
21. The conduit anchor of any one of items 1-20, wherein the conduit attachment has a bending reinforcement extending from a distal end of the conduit attachment.
(Item 22)
22. The bending reinforcement extends from the conduit attachment along the dynamic conduit path range to the conduit guide and optionally at least partially through the conduit guide. Conduit anchor.
(Item 23)
23. A conduit anchor according to item 22, further comprising a fixture for attaching a strain relief line, and a strain relief line optionally coupled to said fixture at one end.
(Item 24)
A maritime system,
equipment above the water surface of a body of water;
The conduit anchor according to any one of items 1 to 23;
a conduit having a dynamic conduit portion and a static conduit portion;
The conduit is attached to the conduit attachment of the conduit anchor, the static conduit portion extending from proximal to the conduit attachment to the conduit attachment, and the dynamic conduit portion extending from the conduit attachment. A marine system extending distally along the dynamic conduit path extent, through the conduit guide, and through the water column to the surface equipment.
(Item 25)
The dynamic conduit section includes a minimum bending radius, and the radius of curvature of all portions of the convex bend protection surface area along the dynamic conduit path extent is equal to the minimum bending radius of the dynamic conduit section. The maritime system described in item 24, which is equal to or exceeds
(Item 26)
26. Maritime system according to item 24 or 25, wherein the equipment on the water surface of the body of water comprises a floating vessel.
(Item 27)
27. The marine system according to item 26, wherein the floating vessel is a floating water current generator.
(Item 28)
24. A method for placing a conduit anchor according to any one of items 1 to 23 from equipment above the water surface of a body of water, comprising:
attaching a conduit to the conduit attachment;
lowering the conduit anchor to the seabed;
When the conduit anchor is placed on the seabed, a static conduit section of the conduit extends from proximal to the conduit attachment to the conduit attachment, and a dynamic conduit section extends from the conduit attachment to the dynamic conduit attachment. extending distally along a conduit path extent, through the conduit guide and through the water column to the above-water equipment.
(Item 29)
29. The method of item 28, comprising connecting the dynamic conduit to the conduit attachment by passing an end of the dynamic conduit through the conduit guide and into the conduit attachment.
(Item 30)
30. The method of item 29, comprising connecting a static conduit to the conduit attachment.
(Item 31)
31. The method of item 30, wherein the connection of the dynamic conduit and the static conduit is performed at the installation above the water surface of the body of water before the conduit anchor is lowered to the seabed.
(Item 32)
Any one of items 29 to 31, wherein the conduit attachment has a strain relief device, such as a clamping device, and the method comprises attaching the strain relief device to a flange portion of the dynamic conduit. Method described.
(Item 33)
33. The method of item 32, comprising forming a flange portion of the dynamic conduit at or near a proximal end of the dynamic conduit.

Claims (20)

A conduit anchor,
a base section;
a conduit guide extending from the base section;
the base section has a conduit attachment for securing a static conduit portion to the base section;
the conduit anchor defines a dynamic conduit path range available in use for a dynamic conduit portion extending distally from the conduit attachment through the conduit guide;
the conduit guide has a convex bend protection surface area oriented distally from the conduit attachment toward the dynamic conduit path region, the convex bend protection surface area being oriented distally from the conduit attachment toward the dynamic conduit path region; A conduit anchor extending at least partially around the passageway area. For use with the dynamic conduit section having a minimum bending radius, the radius of curvature of all portions of the convex bend protection surface area along the dynamic conduit path extent is such that 2. The conduit anchor of claim 1, wherein the conduit anchor is at or above the radius. 3. The conduit anchor of claim 1 or 2, wherein when the conduit anchor is placed on the seabed, the dynamic conduit path extent extends distally from the conduit attachment generally along the seabed. 3. The conduit anchor of claim 1 or 2, wherein when the conduit anchor is placed on the seabed, the dynamic conduit path extent extends distally from the conduit attachment generally away from the seabed. . When the conduit anchor is placed on the seabed, the convex curved protective surface area extends completely around the dynamic conduit path extent and defines an opening surrounding the dynamic conduit path extent. 5. The conduit anchor of claim 4, wherein the dynamic conduit portion extends through the opening in use. The convex bend protection surface area provides bend protection for the dynamic conduit portion extending through at least about 90 degrees or at least about 180 degrees along the dynamic conduit path extent. The conduit anchor according to item 1 or 2. 3. The conduit anchor of claim 1 or 2, wherein the convex bend protection surface area has two or more convex bend protection surface sections. 8. The conduit anchor of claim 7, wherein each of the two or more convex bend protection surface sections has a substantially partially circular cross section. The convex bend protection surface area has two, three, four, or more convex bend protection surface sections, and the convex bend protection surface sections define the dynamic conduit path area. 9. Having a semi-circular cross-section constructed from two, three, four or more lengths of circumferentially joined end-to-end tubular. Conduit anchor. When the conduit anchor is placed on the seabed, the dynamic conduit path area extends distally from the conduit attachment generally away from the seabed, and the convex bending protective surface area 10. The conduit anchor of claim 9 having four partially cylindrical surface sections defining an aperture with generally square or rectangular symmetry surrounding a dynamic conduit path extent. 3. A conduit anchor according to claim 1 or 2, wherein the conduit attachment includes means for joining separate dynamic and static conduits. 12. The conduit anchor of claim 11, wherein the conduit attachment comprises a proximal end for attachment to the static conduit and a distal end for attachment to the dynamic conduit. 12. The conduit anchor of claim 11, wherein the conduit attachment further includes a strain relief device. 3. A conduit anchor according to claim 1 or 2, wherein the conduit attachment has a bending reinforcement extending from a distal end of the conduit attachment. A maritime system,
equipment above the water surface of a body of water;
A conduit anchor according to claim 1 or 2;
a conduit having a dynamic conduit portion and a static conduit portion;
The conduit is attached to the conduit attachment of the conduit anchor, the static conduit portion extending from proximal to the conduit attachment to the conduit attachment, and the dynamic conduit portion extending from the conduit attachment. A marine system extending distally along the dynamic conduit path extent, through the conduit guide, and through the water column to the surface equipment. The dynamic conduit section includes a minimum bending radius, and the radius of curvature of all portions of the convex bend protection surface area along the dynamic conduit path extent is equal to the minimum bending radius of the dynamic conduit section. 16. The marine system of claim 15, wherein the marine system is greater than or equal to . 16. The marine system of claim 15, wherein the equipment on the water surface of the body of water comprises a floating hydroelectric generator. 3. A method for placing a conduit anchor according to claim 1 or 2 from equipment above the water surface of a body of water, comprising:
attaching a conduit to the conduit attachment;
lowering the conduit anchor to the seabed;
When the conduit anchor is placed on the seabed, a static conduit section of the conduit extends from proximal to the conduit attachment to the conduit attachment, and a dynamic conduit section extends from the conduit attachment to the dynamic conduit attachment. extending distally along a conduit path extent, through the conduit guide and through the water column to the above-water equipment. 19. The method of claim 18, comprising connecting the dynamic conduit to the conduit attachment by passing an end of the dynamic conduit through the conduit guide and into the conduit attachment. connecting a static conduit to the conduit attachment, wherein the connection of the dynamic conduit and the static conduit is performed at the facility above the water surface of the body of water before the conduit anchor is lowered to the seabed. 20. The method of claim 19.