Deepwater hoisting system and method

1 . A deepwater hoisting system provided with heave compensation functionality, wherein the system comprises: a synthetic fiber rope winch assembly comprising a motor driven first winch and a length of synthetic fiber rope driven by said first winch, said synthetic fiber rope having an end remote from the first winch; a steel wire winch assembly comprising a motor driven second winch and a length of steel wire driven by said second winch, said steel wire having an end remote from the second winch; and a lifting block having a lifting block sheave, wherein the synthetic fiber rope is run through said lifting block sheave, wherein the ends of the synthetic fiber rope and of the steel wire are interconnected, so that the lifting block is suspended in a double-fall arrangement, and wherein at least the second winch is an active heave compensation motor driven winch. 2 . The deepwater hoisting system according to claim 1 , wherein said length of synthetic fiber rope is at least 600 meters long. 3 . The deepwater hoisting system according to claim 1 , wherein said length of steel wire is at most 1000 meters long. 4 . The deepwater hoisting system according to claim 1 , wherein the connection of the ends of the synthetic fiber rope and of the steel wire is releasable. 5 . The deepwater hoisting system according to claim 1 , wherein the system comprises a fiber rope departing sheave that is arranged above the water surface, from which the fiber rope extends—in operation—into the water to the lifting block, and wherein the system comprises a steel wire departing sheave that is arranged above the water surface, wherein the system further comprises a steel wire guide that is arranged to engage on the steel wire in between the steel wire departing sheave and the water surface, the steel wire guide being adapted to deviate the steel wire from an imaginary straight line between the departing sheave and the lifting block sheave in order to spread the falls from which the lifting block is suspended. 6 . The deepwater hoisting system according to claim 1 , wherein the diameter of the lifting block sheave is at least 1.5 meters. 7 . The deepwater hoisting system according to claim 1 , wherein said first winch is a traction winch, and wherein the system further comprises a fiber rope storage winch which stores said length of synthetic fiber rope, and from which the synthetic fiber rope extends to said first winch, via which the synthetic fiber rope extends to the lifting block sheave. 8 . The deepwater hoisting system according to claim 1 , wherein the first winch and/or, if present, the fiber rope storage winch, is mounted below decks. 9 . The deepwater hoisting system according to claim 1 , wherein the lifting block comprises two lifting block sheaves in substantially the same vertical plane. 10 . The deepwater hoisting system according to claim 1 , wherein said system comprises a crane adapted to be fitted on an offshore vessel, the system comprising: a pedestal to be stationary fitted on the hull of a vessel; a revolving superstructure supported on said pedestal via a slew bearing so as to allow revolving about a vertical slew axis; and a boom assembly connected to said superstructure and carrying at least one departing sheave for at least one of the fiber rope and the steel wire. 11 . The deepwater hoisting system according to claim 10 , wherein one of said motor driven first and second winches is mounted on said revolving superstructure, and wherein the other one of said first and second winches is not mounted on said revolving superstructure. 12 . The deepwater hoisting system according to claim 11 , wherein the second winch is mounted on said revolving superstructure, and wherein the first winch is not mounted on said revolving superstructure. 13 . The deepwater hoisting system according to claim 10 , wherein both of said motor driven first and second winches are mounted on said revolving superstructure. 14 . The deepwater hoisting system according to claim 10 , wherein said first winch of the system is a traction winch, and wherein the synthetic fiber rope winch assembly of the system further comprises a fiber rope storage winch which stores said length of synthetic fiber rope, and from which the synthetic fiber rope extends to said first winch, wherein the fiber rope storage winch is not mounted on said revolving superstructure. 15 . The deepwater hoisting system according to claim 10 , wherein the boom assembly carries both a fiber rope departing sheave and a steel wire departing sheave, wherein the fiber rope departing sheave and the steel wire departing sheave are arranged to vertically extend parallel to each other. 16 . The deepwater hoisting system according to claim 1 , wherein the lifting block comprises: a load bearing frame body having sides formed by two frame side members that are spaced apart from one another and define a space between them, said frame body further having a top, a bottom, and a central vertical axis; at least one sheave rotatably mounted in the space between said two frame side members each sheave being supported by said two frame side members; and a load connector suspended from said load bearing frame body in said central vertical axis and below the bottom thereof, wherein the lifting block further comprises one or more external shape adapter members mounted onto the load bearing frame body, said one or more external shape adapter members covering at least a majority of the sides of the load bearing frame body, said one or more external shape adapter members defining a substantially rotationally symmetric shape about the central vertical axis of the load bearing frame body. 17 . The deepwater hoisting system according to claim 16 , wherein the lifting block has two external shape adapter members, each mounted onto a respective frame side member of the load bearing frame body and covering at least a majority of the respective side of the load bearing frame body, said two external shape adapter members thereby sandwiching the two frame side members between them and defining a substantially rotationally symmetric shape about the central vertical axis of the load bearing frame body. 18 . The deepwater hoisting system according to claim 16 , wherein the one or more external shape adapter members define a substantially spheroid shape that is rotationally symmetric about at least the central vertical axis of the load bearing frame body. 19 . The deepwater hoisting system according to claim 16 , wherein the lifting block has two sheaves, each rotatably mounted in the space between said two frame side members, the sheaves being arranged in a common vertical plane and the sheaves having sheave axes that are horizontally offset from one another, each sheave being supported by said two frame side members. 20 . The deepwater hoisting system according to claim 16 , wherein the load connector is swivable about said central vertical axis relative to said load bearing frame body. 21 . The deepwater hoisting system according to claim 16 , wherein the one or more external shape adapter members are each solid over at least the majority of the volume they define. 22 . The deepwater hoisting system according to claim 16 , wherein the one or more external shape adapter members are in the form of one or more hollow shells. 23 . The deepwater hoisting system according to claim 22 , wherein the one or more shells are