Pressure compensator and assembly comprising a subsea installation and such a pressure compensator

The invention claimed is: 1. A double barrier pressure compensator for performing a pressure compensation between seawater surrounding a subsea installation and a pressure compensation medium filling a volume of the subsea installation, the pressure compensator comprising: a housing having a first opening and a second opening; a first bellows and a second bellows arranged one above the other within the housing; a moving separation element adapted to move inside the housing, the moving separation element being positioned between the first and second bellows, and each of the first and second bellows having a first end sealingly fixed to the moving separation element and a second end sealingly fixed to the housing so as to define separate first and second compartments within the housing; wherein the first and second compartments are sealed with respect to each other and the pressure compensator further comprises a third compartment formed by a space between the housing and the first and second bellows; wherein the first compartment is fluidly connected to the volume of the subsea installation through the second opening and the second compartment is in communication with the seawater through the first opening; wherein said third compartment has a constant volume and wherein the barrier medium is a dielectric fluid. 2. The pressure compensator according to claim 1 , wherein the housing comprises first and second spaced apart transverse plates and a cylinder extending between the first and second transverse plates, and wherein the first opening is located in said first transverse plate and the second opening is located in said second transverse plate. 3. The pressure compensator according to claim 1 , wherein the moving separation element is a moving plate. 4. The pressure compensator according to claim 1 , wherein the respective first and second ends of the first and second bellows are sealingly welded, soldered and/or flanged to the moving separation element and the housing, respectively. 5. The pressure compensator according to claim 1 , further comprising a rod fixed to the moving separation element and protruding from the housing through a bore arranged therein, the rod being designed for monitoring a level of the pressure compensation medium inside the housing. 6. The pressure compensator according to claim 5 , wherein said bore is an axial bore. 7. The pressure compensator according to claim 5 , wherein the bore is adapted to guide a movement of the rod such that the rod aligns and guides a movement of the moving separation element. 8. The pressure compensator according to claim 1 , wherein the moving separation element comprises an extension configured to contact an internal lateral face of the housing so as to help guide a movement of the moving separation element. 9. The pressure compensator according to claim 1 , further comprising an elastic member positioned in the second compartment and sandwiched between the housing and the moving separation element to thereby pre-charge the compensator. 10. The pressure compensator according to claim 9 , wherein the elastic member is a spring mounted on a rod. 11. The pressure compensator according to claim 1 , further comprising a second pressure compensator with a bellows or a bladder, the second pressure compensator being connected to the pressure compensator for compensating variations of the volume of the barrier medium in the third compartment. 12. The pressure compensator according to claim 1 , wherein the pressure compensation medium is a dielectric fluid. 13. A subsea assembly comprising a subsea installation and a pressure compensator for performing a pressure compensation between seawater surrounding the subsea installation and a pressure compensation medium filling a volume of the subsea installation, the pressure compensator comprising: a housing having first and second openings; first and second bellows arranged one above the other within the housing; a moving separation element adapted to move inside the housing, the moving separation element being positioned between the first and second bellows, and each of the first and second bellows having a first end sealingly fixed to the moving separation element and a second end sealingly fixed to the housing so as to define separate first and second compartments within the housing; wherein the first and second compartments are sealed with respect to each other and the pressure compensator further comprises a third compartment formed by a space between the housing and the first and second bellows; wherein the first compartment is fluidly connected to the volume of the subsea installation through the second opening and the second compartment is in communication with the seawater through the first opening; wherein said third compartment has a constant volume and wherein the barrier medium is a dielectric fluid. 14. The subsea assembly according to claim 13 , wherein the housing is mounted on the subsea installation and the second opening is common to the pressure compensator and a tank of the subsea installation. 15. The subsea assembly according to claim 13 , wherein the housing comprises first and second spaced apart transverse plates and a cylinder extending between the first and second transverse plates, and wherein the first opening is located in said first transverse plate and the second opening is located in said second transverse plate. 16. The subsea assembly according to claim 13 , wherein the moving separation element is a moving plate. 17. The subsea assembly according to claim 13 , wherein the respective first and second ends of the first and second bellows are sealingly welded, soldered and/or flanged to the moving separation element and the housing, respectively. 18. The subsea assembly according to claim 13 , further comprising a rod fixed to the moving separation element and protruding from the housing through a bore arranged therein, the rod being designed for monitoring a level of the pressure compensation medium inside the housing. 19. The subsea assembly according to claim 18 , wherein the bore is adapted to guide a movement of the rod such that the rod aligns and guides a movement of the moving separation element. 20. The subsea assembly according to claim 13 , wherein the moving separation element comprises an extension configured to contact an internal lateral face of the housing so as to help guide a movement of the moving separation element. 21. The subsea assembly according to claim 13 , further comprising an elastic member positioned in the second compartment and sandwiched between the housing and the moving separation element to thereby pre-charge the compensator. 22. The subsea assembly according to claim 21 , wherein the elastic member is a spring mounted on a rod. 23. The subsea assembly according to claim 13 , further comprising a second pressure compensator with a bellows or a bladder, the second pressure compensator being connected to the pressure compensator for compensating variations of the volume of the barrier medium in the third compartment.