System and method for fluid processing

What is claimed is: 1. A fluid separator unit comprising: a body configured to be elongate and comprising a circular internal cross-section and a longitudinal axis; an inlet configured to direct a flow of a fluid into the body in a rotational flow pattern around the longitudinal axis of the body; a first outlet; a second outlet; a first centrifugal separation zone arranged within the body; a second centrifugal separation zone arranged within the body, a diameter of the second centrifugal separation zone being smaller than a diameter of the first centrifugal separation zone; a first fluid path from a central part of the first centrifugal separation zone to the first outlet; a second fluid path from an outer periphery of the second centrifugal separation zone to the first outlet; a third fluid path from the second centrifugal separation zone to the second outlet; a fourth fluid path from an outer periphery of the first centrifugal separation zone to the first outlet; and a spin-up plate arranged between the first centrifugal separation zone and the second centrifugal separation zone. 2. The fluid separator unit as recited in claim 1 , wherein the third fluid path from the second centrifugal separation zone to the second outlet is arranged to extend through a third centrifugal separation zone. 3. The fluid separator unit as recited in claim 1 , wherein, the spin-up plate comprises at least one hole, and the at least one hole is arranged at an outer periphery of the spin-up plate. 4. The fluid separator unit as recited in claim 3 , wherein the at least one hole defines a part of the fourth fluid path from the outer periphery of the first centrifugal separation zone to the first outlet. 5. A pump arrangement comprising: the fluid separator as recited in claim 1 ; a supply pipe; a pressure boosting device comprising an inlet; and a recycled liquid line arranged between the second outlet and the inlet of the pressure boosting device, wherein, the fluid separator is arranged to receive a fluid stream from the pressure boosting device via the supply pipe. 6. A fluid separator unit comprising: a body configured to be elongate and comprising a circular internal cross-section and a longitudinal axis; an inlet configured to direct a flow of a fluid into the body in a rotational flow pattern around the longitudinal axis of the body; a first outlet; a second outlet; a first centrifugal separation zone arranged within the body; a second centrifugal separation zone arranged within the body, a diameter of the second centrifugal separation zone being smaller than a diameter of the first centrifugal separation zone; a first fluid path from a central part of the first centrifugal separation zone to the first outlet; a second fluid path from an outer periphery of the second centrifugal separation zone to the first outlet; a third fluid path from the second centrifugal separation zone to the second outlet; a cylindrical wall arranged within the body, the cylindrical wall comprising an opening arranged therein; and a pipe arranged to fluidly connect the opening to the second outlet, wherein, the second centrifugal separation zone is defined by the cylindrical wall, and the third fluid path from the second centrifugal separation zone to the second outlet is provided by the opening which is arranged in the cylindrical wall and by the pipe fluidly connecting the opening to the second outlet. 7. A pump arrangement comprising: the fluid separator as recited in claim 6 ; a supply pipe; a pressure boosting device comprising an inlet; and a recycled liquid line arranged between the second outlet and the inlet of the pressure boosting device, wherein, the fluid separator is arranged to receive a fluid stream from the pressure boosting device via the supply pipe. 8. The fluid separator unit as recited in claim 6 , further comprising: a bottom plate which is fixed to a lower end of the cylindrical wall. 9. The fluid separator unit as recited in claim 8 , further comprising: an intermediate plate which is fixed to the cylindrical wall and is arranged to extend inwardly around an inner circumference of the cylindrical wall, wherein, the opening is arranged in the cylindrical wall between the intermediate plate and the bottom plate. 10. The fluid separator unit as recited in claim 9 , further comprising: a third centrifugal separation zone which is arranged between the intermediate plate and the bottom plate. 11. The fluid separator unit as recited in claim 6 , wherein, the cylindrical wall further comprises a radial opening arranged therein, and the second fluid path from the outer periphery of the second centrifugal separation zone to the first outlet comprises the radial opening in the cylindrical wall. 12. The fluid separator unit as recited in claim 11 , wherein the radial opening is arranged to extend in a spiral shape along the cylindrical wall. 13. The fluid separator unit as recited in claim 6 , further comprising: a second opening arranged in a lower section of the body, the second opening being fluidly connected to the first outlet. 14. The fluid separator unit as recited in claim 13 , further comprising: a cylindrical flow channel arranged between the second opening and the first outlet, the cylindrical flow channel comprising walls; and a first plate arranged in the cylindrical flow channel, the first plate being arranged at an angle in relation to the walls of the cylindrical flow channel which is not 90°. 15. The fluid separator unit as recited in claim 14 , wherein the first plate comprises an opening which is arranged at a part of the first plate which is closest to the first outlet. 16. The fluid separator unit as recited in claim 14 , further comprising: a second plate arranged in the cylindrical flow channel, the second plate being arranged at an angle in relation to the walls of the cylindrical flow channel which is not 90°. 17. The fluid separator unit as recited in claim 16 , wherein the angle of the first plate in relation to the walls of the cylindrical flow channel is identical to the angle of the second plate in relation to the walls of the cylindrical flow channel. 18. The fluid separator unit as recited in claim 16 , further comprising: a third plate arranged in the cylindrical flow channel, the third plate being arranged between the first plate and the second plate. 19. The fluid separator unit as recited in claim 18 , wherein an angle of the third plate in relation to the walls of the cylindrical flow channel is different from the angle of the first plate in relation to the walls of the cylindrical flow channel and different from the angle of the second plate in relation to the walls of the cylindrical flow channel. 20. A fluid separator unit comprising: a body configured to be elongate and comprising a circular internal cross-section and a longitudinal axis; an inlet configured to direct a flow of a fluid into the body in a rotational flow pattern around the longitudinal axis of the body; a first outlet; a second outlet; a first centrifugal separation zone arranged within the body; a second centrifugal separation zone arranged within the body, a diameter of the second centrifugal separation zone being smaller than a diameter of the first centrifugal separation zone; a first fluid path from a central part of the first centrifugal separation zone to the first outlet; a second fluid path from an outer periphery of the second c