Helico-axial pump, rotor for a helico-axial pump as well as method for journalling a rotor in a helico-axial pump

The invention claimed is: 1. A helico-axial pump for conveying a multiphase mixture, which helico-axial pump includes a rotor rotatably journalled about a longitudinal axis in a pump housing and having a first part rotor and a second part rotor, wherein the first part rotor and the second part rotor include a compression stage having a helico-axial impeller and a stator for the compression of the multiphase mixture, and wherein a hydrodynamic stabilization bush having a stabilization surface is provided and formed between the first part rotor and the second part rotor such that a stabilization gap is formed before the stabilization surface so that a hydrodynamic stabilization layer can be formed from a stabilization medium in the stabilization gap in the operating state. 2. A helico-axial pump in accordance with claim 1 , wherein the first part rotor and the second part rotor are provided in a back-to-back arrangement in the pump housing such that the multiphase mixture can be supplied via an intake opening to a first input compression stage of the first part rotor and can be led off again from the first part rotor into a first cross-passage via a first output compression stage and the multiphase mixture can be supplied from the first cross-passage to a second input compression stage of the second part rotor and can be led off again from the second part rotor via a second output compression stage via a second cross-passage and a pressure opening from the helico-axial pump, wherein the first output compression stage and the second output compression stage are each arranged adjacent to the stabilization bush. 3. A helico-axial pump in accordance with claim 1 , wherein the stabilization bush is made and is arranged at the rotor such that the stabilization gap is formed between the stabilization bush and the pump housing; and/or wherein the stabilization bush is made and is arranged at the rotor such that the stabilization gap is formed between the stabilization bush and the rotor. 4. A helico-axial pump in accordance with claim 1 , wherein a hydrodynamic stabilization element having a stabilization surface is provided and is designed such that the stabilization gap is formed before the stabilization surface so that a hydrodynamic stabilization layer can be formed from the stabilization medium in the stabilization gap in the operating state. 5. A helico-axial pump in accordance with claim 4 wherein the hydrodynamic stabilization element is a cover ring which surrounds the helico-axial impeller in the peripheral direction so that the stabilization gap is formed between the cover ring and the pump housing; and/or wherein the hydrodynamic stabilization element is a stabilization sleeve so that the stabilization gap is formed between the stabilization sleeve and the pump housing. 6. A helico-axial pump in accordance with claim 4 , wherein the stabilization element is the stator having a supply passage which is formed and arranged at the stator such that a presettable quantity of stabilization medium can be supplied through the supply passage to the stabilization gap for the formation of the hydrodynamic stabilization layer in the stabilization gap. 7. A helico-axial pump in accordance with claim 1 , wherein a supply passage is provided which is made and arranged so that a presettable quantity of stabilization medium, in particular multiphase mixture, can be supplied through the supply passage to the stabilization gap for the formation of the hydrodynamic stabilization layer in the stabilization gap, wherein the supply passage is preferably provided in a gap ring. 8. A helico-axial pump in accordance with claim 7 , wherein the stabilization medium is supplied to the supply passage from a compression stage at which a higher pressure level is present. 9. A helico-axial pump in accordance with claim 1 , wherein a supply passage is arranged and formed at the pump housing such that a presettable quantity of stabilization medium can be supplied through the supply passage to the stabilization gap for the formation of the hydrodynamic stabilization layer in the stabilization gap. 10. A helico-axial pump in accordance with claim 1 , wherein a supply passage is arranged and formed at the rotor such that a presettable quantity of stabilization medium can be supplied through the supply passage to the stabilization gap for the formation of the hydrodynamic stabilization layer in the stabilization gap. 11. A rotor for arrangement in a pump housing of a helico-axial pump in accordance with claim 1 for conveying a multiphase mixture, wherein the rotor rotatably journalled about a longitudinal axis includes a first part rotor and a second part rotor and the first part rotor and the second part rotor include a compression stage having a helico-axial impeller and a stator for the compression of the multiphase mixture, characterized in that a hydrodynamic stabilization bush having a stabilization surface is provided and formed between the first part rotor and the second part rotor such that a stabilization gap is formed before the stabilization surface so that a hydrodynamic stabilization layer can be formed from a stabilization medium in the stabilization gap in the operating state. 12. A rotor in accordance with claim 11 , wherein a hydrodynamic stabilization element having a stabilization surface is provided in the form of a cover ring which surrounds the helico-axial impeller in the peripheral direction so that the stabilization gap can be formed between the cover ring and a pump housing of the helico-axial pump; and/or wherein the hydrodynamic stabilization element is a stabilization sleeve so that the stabilization gap is formed between the stabilization sleeve and the pump housing. 13. A rotor in accordance with claim 11 , wherein a supply passage is provided which is made and is arranged such that a presettable quantity of stabilization medium, in particular multiphase mixture, can be supplied through the supply passage to the stabilization gap for the formation of the hydrodynamic stabilization layer in the stabilization gap. 14. A hybrid pump comprising a rotor rotatably journalled about a longitudinal axis in a pump housing and having a first part rotor and a second part rotor, wherein the first part rotor and the second part rotor include a compression stage having a helico-axial impeller and a stator for the compression of the multiphase mixture, a hydrodynamic stabilization bush having a stabilization surface and formed between the first part rotor and the second part rotor such that a stabilization gap is formed before the stabilization surface so that a hydrodynamic stabilization layer can be formed from a stabilization medium in the stabilization gap in the operating state, wherein the rotor rotatably journalled about a longitudinal axis includes a first part rotor and a second part rotor and the first part rotor and the second part rotor include a compression stage having a helico-axial impeller and a stator for the compression of the multiphase mixture, and a hydrodynamic stabilization bush having a stabilization surface and formed between the first part rotor and the second part rotor such that a stabilization gap is formed before the stabilization surface so that a hydrodynamic stabilization layer can be formed from a stabilization medium in the stabilization gap in the operating state. 15. A method for the hydrodynamic journalling of a rotor of a helico-axial pump, including a rotor rotatably journalled about a longitudinal axis in a pump housing and having a first part rotor and a second part rotor, wherein the first part rotor and the second part roto