Arrangement for pressurizing of fluid

What is claimed is: 1. A compressor or pump arrangement at least comprising a number 1 t of compressor or pump stages arranged axially adjacent with each other about a central shaft, wherein each stage at least comprises: a rotor, wherein an axis of rotation of each rotor is the central shaft and where each rotor at least is provided with a number n≥2 rows of impellers arranged at an outer surface of the associated rotor with an axial distance between neighbouring rows of impellers; and an outer shroud surrounding the rotor, where the outer shroud comprises at least, m, rows of diffusors arranged on the inner diameter of the outer shroud, where m=n−1, and where the m diffusors are arranged to protrude from the inner perimeter of the outer shroud and expand in between neighbouring rows of impellers thereby providing a compressor or pump stage. 2. A compressor or pump arrangement according to claim 1 , where at least a first motor winding and first laminations are arranged in the central shaft in a first stage 1 1 , and a second motor winding and second laminations are arranged in the central shaft in a second stage 1 2 . 3. A compressor or pump arrangement according to claim 1 , wherein the number 1 t of compressor or pump stages together form an electric motor, where the central shaft at least comprises: motor winding and laminations; electric wiring for the motor windings; cooling means, and at least one permanent magnet arranged on each rotor in close proximity with the central shaft and in magnetic interaction with the motor windings defining a gap dl between the permanent magnet and the motor windings. 4. A compressor or pump arrangement according to claim 3 , wherein each rotor of the motor further comprises two or more bearings arranged between the rotor and the central shaft and at least two axial thrust bearings arranged axially remote from each other and being associated with the rotor. 5. A compressor or pump arrangement according to claim 1 , where adjacent rotors of the compressor or pump stages rotate in opposite directions. 6. A compressor or pump arrangement according to claim 1 , where all rotors of the compressor or pump stages rotates in the same direction. 7. A compressor or pump arrangement according to claim 6 , where each of the compressor or pump stages further comprises an outer shroud surrounding each rotor, where the outer shroud comprises rows of diffusors arranged on the inner diameter of the outer shroud, where the diffusors are arranged to protrude from the inner perimeter of the outer shroud and expand in between neighbouring rows of impellers and where a row of diffusors is arranged between each compressor or pump stage.