Hoisting crane for use on an offshore vessel and method of operation

The invention claimed is: 1. A hoisting crane for use on an offshore vessel, the hoisting crane comprising: a base structure configured to be mounted on the vessel; a superstructure mounted to the base structure, and being provided with: a top cable guide at a top thereof; and a boom connection member defining a horizontal pivot axis; a boom having a longitudinal axis, wherein the boom has an inner end connected to the left-hand connector and right-hand connector of the boom connection member, so that the boom can be pivoted up and down about the horizontal pivot axis which is perpendicular to the longitudinal axis of a boom; a boom head structure provided at a tip end of the boom; a luffing device for pivoting the boom up and down, and comprising a luffing winch and a variable length luffing system, the variable length luffing system extending from the luffing winch via the top cable guide to the boom head structure; and a hoisting device for hoisting a load, and comprising a hoisting winch and an associated hoisting cable, the hoisting cable extending from the hoisting winch to a main hoist cable guide on the boom head structure, wherein the boom comprises: a proximal portion connected to the boom connection member; a distal portion comprising the boom head structure to which the variable length luffing system and the hoisting cable extend, wherein the distal portion has a first cross-sectional size in a cross-section perpendicular to a longitudinal axis of the distal portion; and an intermediate portion connected to the proximal portion, wherein the intermediate portion has a second cross-sectional size in a cross-section perpendicular to a longitudinal axis of the intermediate portion which is smaller than said first cross-sectional size of said distal portion, wherein the distal portion and the intermediate portion are arranged such that their respective longitudinal axes are parallel, wherein an extension mechanism is provided, said extension mechanism being configured to allow the distal portion to be slid relative to the intermediate portion in a longitudinal direction of the boom from a retracted configuration to an extended configuration and vice versa, wherein a locking mechanism is provided for locking the distal portion relative to the intermediate portion in the retracted configuration and in the extended configuration, and wherein in the retracted configuration the intermediate portion is arranged substantially within the distal portion. 2. The hoisting crane according to claim 1 , wherein the boom connection member comprises a left-hand connector and a right-hand hand connector at a mutual distance of each other, together defining the horizontal pivot axis, and wherein the proximal portion of the boom comprises a left-hand boom leg and a right-hand boom leg of equal length extending between a joint structure and the left-hand connector of the boom connection member and the right-hand connector of the boom connection member, respectively, such that the left-hand boom leg and the right-hand boom leg converge towards each other in the direction of the joint structure, forming a clearance therebetween of an essentially triangular shape seen in a plane defined by the substantially horizontal pivot axis and the longitudinal axis of the boom. 3. The hoisting crane according to claim 1 , wherein the intermediate portion is formed by a lattice structure comprising a plurality of corner chords, and wherein lattice bars are provided between non-subsequent corner chords. 4. The hoisting crane according to claim 1 , wherein the locking mechanism comprises pins that are remotely operable. 5. The hoisting crane according to claim 1 , wherein the distal portion is configured to be directly connected to the proximal portion in the retracted configuration, or in absence of the intermediate portion. 6. The hoisting crane according to claim 1 , wherein the intermediate portion is configured to be removable, and wherein the distal portion is configured to be connectable to the proximal portion. 7. The hoisting crane according to claim 1 , wherein the distal portion is configured to be slid from the retracted configuration to the extended configuration when the boom is in a substantially upright position. 8. The hoisting crane according to claim 1 , wherein the extension mechanism comprises an extension winch and an associated extension cable, and wherein a sliding movement of the distal portion relative to the intermediate portion is accomplished operating the extension winch. 9. An offshore vessel for use in handling of one or more offshore wind turbine components, of an offshore wind turbine, wherein the vessel is provided with the hoisting crane according to claim 1 . 10. A method for operating the hoisting crane according to claim 1 , comprising the following steps: arranging the distal portion in the retracted configuration; hoisting a first load while the distal portion is in the retracted configuration; arranging the distal portion in the extended configuration; and hoisting a second load while the distal portion is in the extended configuration. 11. A method for operating the hoisting crane according to claim 1 , comprising the following steps: assembling the hoisting crane with the intermediate portion connected to the distal portion and to the proximal portion; hoisting a first load; at least partially disassembling the boom to remove the intermediate portion; reassembling the boom with the distal portion directly connected to the proximal portion; and hoisting a second load while the distal portion is directly connected to the proximal portion. 12. A multi configurations crane system comprising: a base structure configured to be mounted on a vessel; a superstructure mounted to the base structure, and being provided with: a top cable guide at a top thereof; and a boom connection member defining a horizontal pivot axis; a boom having a longitudinal axis, wherein the boom has an inner end connected to the left-hand connector and right-hand connector of the boom connection member, so that the boom can be pivoted up and down about the horizontal pivot axis which is perpendicular to the longitudinal axis of a boom; a boom head structure provided at a tip end of the boom; a luffing device for pivoting the boom up and down, and comprising a luffing winch and a variable length luffing system, the variable length luffing system extending from the luffing winch via the top cable guide to the boom head structure; and a hoisting device for hoisting a load, and comprising a hoisting winch and an associated hoisting cable, the hoisting cable extending from the hoisting winch to a main hoist cable guide on the boom head structure, wherein the multi configurations crane system comprises at least the following components for assembling the boom: a proximal portion configured to be connected to the boom connection member; a distal portion comprising the boom head structure to which the variable length luffing system and the hoisting cable extend, wherein the distal portion has a first cross-sectional size in a cross-section perpendicular to a longitudinal axis of the distal portion; and an intermediate portion, wherein the intermediate portion has a second cross-sectional size in a cross-section perpendicular to a longitudinal axis of the intermediate portion which is smaller than said first cross-sectional size of said distal portion, wherein the multi configurations crane system has at least a first configuration and a second configuration, wherein: in the first configuration, the intermediate portion is connected to the proximal porti