Floatable modular protective harbor structure and method of seasonal service extension of offshore vessels in ice-prone environments

What is claimed is: 1. A modular structure for protecting an offshore vessel in a body of water from forces of ice features in the body of water, the protective structure comprising: a protective harbor wall constructed and arranged to enclose a harbor space, the harbor space being sized to receive the offshore vessel, and the protective harbor wall constructed and arranged to allow entry and exit of the offshore vessel to and from the harbor space, as well as to counteract the forces of ice features in the body of water; a flotation support constructed and arranged to support the protective harbor wall; a pile; and a telescoping connection operatively coupled to the protective harbor wall and the flotation support, the telescoping connection constructed and arranged to axially move the protective harbor wall between a retracted position and a raised position, wherein: the flotation support having capacity to float and support the protective harbor wall and to change net buoyancy of the modular protective structure to submerge the modular protective structure to a submerged position where the flotation support is positioned on a seabed in the body of water and where the protective harbor wall while in the retracted position is positioned entirely below a surface of the body of water and while in the raised position includes at least a portion of the protective harbor wall extending above the surface of the body of water to establish a harbor within which the offshore vessel is protected from the forces of ice features in the body of water, and the pile constructed and arranged to be partially disposed into the seabed to maintain the position of the flotation support on the seabed; wherein the protective harbor wall is open at the top and the bottom. 2. The modular protective structure of claim 1 , wherein the protective harbor wall is a modular protective harbor wall comprising a plurality of discrete elements operatively coupled together to form the modular protective harbor wall. 3. The modular protective structure of claim 2 , wherein the plurality of elements of the modular protective wall are a plurality of elongate panels that are operatively coupled together in a cylindrical form using post-cast tensioners. 4. The modular protective structure of claim 2 , wherein the plurality of elements of the modular protective harbor wall are a plurality of elongate panels that are operatively coupled together in a rectangular form using post-cast tensioners. 5. The modular protective structure of claim 2 , wherein the plurality of elements of the modular protective harbor wall are a plurality of precast concrete panels, the plurality of precast concrete panels operatively coupled together using a wire wrapping circumferentially disposed around the plurality of precast concrete panels and a layer of shotcrete disposed over the wire wrapping. 6. The modular protective structure of claim 2 , wherein the plurality of elements of the modular protective harbor wall comprise a plurality of metallic panels. 7. The modular protective structure of claim 1 , wherein the protective harbor wall is constructed and arranged to have a strength sufficient to withstand second-year ice conditions or other multi-year ice conditions such that the protective harbor wall provides a year round capacity to protect the offshore vessel within the harbor. 8. The modular protective structure of claim 1 , wherein the flotation support comprises a plurality of discrete modular flotation elements. 9. The modular protective structure of claim 1 , wherein the telescoping connection includes a guide wall. 10. The modular protective structure of claim 9 , wherein the guide wall is a modular guide wall comprising a plurality of discrete panels operatively coupled together to form the modular guide wall which is open at the top and the bottom. 11. The modular protective structure of claim 1 , wherein the telescoping connection includes a plurality of guideposts. 12. The modular protective structure of claim 9 , wherein the telescoping connection further comprises a rack and pinion unit. 13. The modular protective structure of claim 9 , wherein the telescoping connection further comprises a plurality of hooks. 14. A method for extending the service of an offshore vessel in a geographical region having a season of ice conditions comprising: establishing a harbor space protected from forces of ice features in a body of water at a location of operations by: providing a modular protective structure at the location of operations, the modular protective structure comprising a flotation support, a protective harbor wall, a telescoping connection operatively coupled to the protective harbor wall and the flotation support, and a pile, the protective harbor wall constructed and arranged to enclose the harbor space, the harbor space being sized to receive the offshore vessel, submerging the modular protective structure to a submerged position where the flotation support is positioned on a seabed of the body of water and the entirety of the protective harbor wall while in a retracted position is positioned below a surface of the body of water, securing the flotation support to the seabed using the pile, and raising the protective harbor wall to a raised position using the telescoping connection while the flotation support remains secured to the seabed, at the raised position at least a portion of the protective harbor wall extends above the surface of the body of water to establish a harbor within which the offshore vessel is protected by the protective harbor wall from the forces of ice features in the body of water; moving the offshore vessel into a position within the protective harbor wall proximate the location of operations; and extending operations of the offshore vessel in the season of ice conditions by maintaining the protective harbor wall in the raised position to protect the offshore vessel from ice features during the extended operations. 15. The method of claim 14 , wherein the moving of the offshore vessel includes moving the offshore vessel into or out the harbor by opening and closing a gate provided on the protective harbor wall. 16. The method of claim 14 , wherein the moving of the offshore vessel comprises: moving the offshore vessel into a position proximate the location of operations and within the harbor to be formed by the protective harbor wall while the submerged protective harbor wall is in the retracted position. 17. A method for preparing a site for operations in a region having periods of ice conditions, the method comprising: constructing a modular protective harbor wall by operatively coupling a plurality of elements together to form an annulus; constructing a modular flotation support by: constructing a plurality of modular flotation elements, launching the constructed plurality of modular flotation elements separately into a body of water, and while the launched plurality of modular flotation elements are in the body of water, operatively coupling together the launched plurality of modular flotation elements to form an annulus; operatively coupling the modular protective harbor wall and the modular flotation support using a telescoping connection to create a submersible modular protective harbor structure; and moving the submersible modular protective harbor structure to the site of operations, wherein: the annulus is sized to receive an offshore vessel, and the modular protective harbor wall is constructed and arranged to allow entry and exit of the offshore vessel to and fr