Heave compensated dual hoist crane

The invention claimed is: 1. A dual hoist heave compensation system for use in a dual hoist crane, the heave compensation system comprising: a support frame; a heave compensation cylinder, having a cylinder body mounted on the support frame and a cylinder rod, the heave compensation cylinder being configured to be connected to a gas buffer to enable passive heave compensation; a sheave head, wherein the sheave head is supported by the cylinder rod for movement along a heave compensation trajectory; a sheave dock, mounted on the support frame at an end of the heave compensation trajectory; a first set of sheaves for guiding a main hoisting cable of a main hoisting assembly; and a second set of sheaves for guiding an auxiliary hoisting cable of an auxiliary hoisting assembly, wherein the dual hoist heave motion compensation system is configured to individually lock the first set of sheaves and the second set of sheaves to the sheave head, for respectively providing a main hoisting assembly and an auxiliary hoisting assembly with heave compensation, and to individually lock the first set of sheaves and the second set of sheaves to the sheave dock, for respectively not providing the main hoisting assembly and the auxiliary hoisting assembly with heave compensation, and the dual hoist heave motion compensation system thus enables for providing only the main hoisting assembly with heave compensation and for providing only the auxiliary hoisting assembly with heave compensation. 2. A dual hoist crane, comprising: a crane structure; a boom, the boom having an inner end, a midsection and an outer end, the boom being pivotable supported by the crane structure such that the boom can be pivoted about a horizontal boom axis; a main hoisting assembly, for lifting and lowering a load, the main hoisting assembly comprising a main hoisting winch and an associated main hoisting cable, and a main load suspension device; an auxiliary hoisting assembly for lifting and lowering a load, the auxiliary hoisting assembly comprising an auxiliary hoisting winch and an associated auxiliary hoisting cable, and an auxiliary load suspension device; and a dual hoist heave motion compensation system, the heave motion compensation system comprising: a support frame; a heave compensation cylinder, having a cylinder body mounted on the support frame and a cylinder rod, the heave compensation cylinder being connected to a gas buffer to enable passive heave compensation; a sheave head, wherein the sheave head is supported by the cylinder rod for movement along a heave compensation trajectory; a sheave dock, mounted on the support frame at an end of the heave compensation trajectory; a first set of sheaves guiding the main hoisting cable of the main hoisting assembly; and a second set of sheaves guiding the auxiliary hoisting cable of the auxiliary hoisting assembly, wherein the main hoisting cable extends from the main hoisting winch along the heave compensation trajectory, via the first set of sheaves, and via at least one main hoisting sheave at the outer end of the boom to the main load suspension device, wherein the auxiliary hoisting cable extends from the auxiliary hoisting winch along the heave compensation trajectory, via the second set of sheaves, and via at least one auxiliary hoisting sheave at the outer end of the boom to the auxiliary load suspension device, and wherein the dual hoist heave motion compensation system is configured to individually lock the first set of sheaves and the second set of sheaves to the sheave head, for respectively providing the main hoisting assembly and the auxiliary hoisting assembly with heave compensation, and to individually lock the first set of sheaves and the second set of sheaves to the sheave dock, for respectively not providing the main hoisting assembly and the auxiliary hoisting assembly with heave compensation, and the dual hoist heave motion compensation system thus enables for providing only the main hoisting assembly with heave compensation and for providing only the auxiliary hoisting assembly with heave compensation. 3. The dual hoist crane according to claim 2 , wherein the sheaves of the first set of sheaves and the sheaves of the second set of sheaves are configured to be locked to the sheave head and to be locked to the sheave dock. 4. The dual hoist crane according to claim 2 , wherein the sheaves of the first set and the sheaves of the second set are mounted in a first sheave block and a second sheave block respectively, and wherein the first sheave block and the second sheave block are configured to be mounted to the sheave head and to be mounted to the sheave dock, to thus lock the sheaves to the sheave head and to lock the sheaves to the sheave dock respectively. 5. The dual hoist crane according to claim 2 , wherein the dual hoist crane further comprises locking devices for locking the sheaves, or for locking sheave blocks in which the sheaves are mounted, to the sheave head and the sheave dock. 6. The dual hoist crane according to claim 2 , wherein the crane comprises a luffing assembly for pivoting the boom up and down, the luffing assembly comprising: a luffing winch and an associated luffing cable; and a gantry, the gantry supporting a luffing cable sheave for guiding the luffing cable from the luffing winch to the outer end of the boom. 7. The dual hoist crane according to claim 6 , wherein the gantry comprises a back stay and a back frame, the back stay and back frame both at a lower end being pivotably mounted to the crane structure, for pivoting about a horizontal back stay pivot axis and back frame pivot axis respectively, and both at an upper end being pivotably connected to each other, wherein the back frame is located between the back stay and the boom, and wherein the backstay comprises a lower frame section and an upper frame section, the lower frame section and upper frame section being pivotably connected, and wherein the gantry can be lowered by pivoting the lower frame section relative to the upper frame section. 8. The dual hoist crane according to claim 6 , wherein the luffing assembly comprises a luffing cable guide arm supporting the at least one luffing cable sheave, the guide arm comprising the at least one boom side sheave, the luffing cable sheave and boom side sheave being spaced relative to each other, for guiding the luffing cable to the boom and spacing part of the luffing cable at a distance from the back stay. 9. The dual hoist crane according to claim 7 , wherein the luffing winch is mounted to the gantry, near the back frame pivot axis. 10. The dual hoist crane according to claim 7 , wherein the support frame of the heave motion compensation system is mounted in the backstay of the gantry. 11. The dual hoist crane according to claim 2 , wherein the dual hoist crane further comprise a tugging track, the tugging track being mounted to the boom and extending along the boom, for guiding a tug-trolley along a length of the boom, the tug trolley being configured to support cables, to be linked to a load supported by the main or auxiliary hoisting assembly, to reduce swing of said load. 12. The dual hoist crane according to claim 2 , wherein the boom is provided with a jib, wherein the jib is mounted at the outer end of the boom, and wherein the main hoisting cable is supported at the outer end of the boom and the auxiliary hoisting cable is supported at an outer end of the jib. 13. The dual hoist crane according to claim 2 , wherein the number of sheaves of one set is even, and wherein the sheaves of that set are divided into two subsets, each subset comprising the same numb