Fault-tolerant electrical generator operable with partial power

What is claimed is: 1. An electrical machine operable with partial power, said electrical machine comprising a rotor and a stator, the rotor being rotatable in relation to the stator about a rotational axis, one of the rotor and the stator comprising a plurality of field modules arranged adjacent to each other about the rotational axis and configured to create a magnetic field for an armature to interact with, and the other one of the rotor and the stator comprising a plurality of armature coils, at least two of the armature coils being connected to different power converters, wherein each field module comprises one or more field coils which are configured to be activated independent of the one or more field coils of the neighboring field modules, wherein when at least one of the field coils is inactivated, each power converter provides for less power to pass through when one of the armature coils connected to the respective power converter is moving over an inactivated field coil, and for more power to pass through when the one of the armature coils connected to the respective power converter is moving over an activated field coil. 2. The electrical machine according to claim 1 , wherein at least one field coil comprises a superconducting material. 3. The electrical machine according to claim 2 , wherein the electrical machine comprises a plurality of cryostats for keeping the temperature of the superconducting material below a transition temperature. 4. The electrical machine according to claim 3 , wherein each field module comprises an individual cryostat. 5. The electrical machine according to claim 3 , wherein the cryostats are housed inside a vacuum vessel. 6. The electrical machine according to claim 5 , wherein the cryostats are attached to vacuum vessel walls via load bearing plates extending in the direction of the rotational axis and being supported against the vacuum vessel walls only by part of their periphery. 7. The electrical machine according to claim 6 , wherein the load bearing plates are supported against the vacuum vessel walls only by their short sides. 8. The electrical machine according to claim 6 , wherein the load bearing plates are made of fibre reinforced plastics. 9. The electrical machine according to claim 1 , wherein the number of the field modules is at least 4. 10. The electrical machine according to claim 1 , wherein the generator is overdimensioned with regard to normal wind conditions. 11. A method of operating an electrical machine operable with partial power, the electrical machine comprising a rotor and a stator, the rotor being rotatable in relation to the stator about a rotational axis, one of the rotor and the stator comprising a plurality of field modules arranged adjacent to each other about the rotational axis and configured to create a magnetic field for an armature to interact with, the other one of the rotor and the stator comprising a plurality of armature coils, at least two of the armature coils being connected to different power converters, the method comprising the steps of providing each field module with one or more field coils which are configured to be activated independent of the one or more field coils of the neighboring field modules; inactivating at least one of the field coils; and configuring each power converter to provide for less power to pass through when one of the armature coils connected to the respective power converter is moving over an inactivated field coil, and for more power to pass through when the one of the armature coils connected to the respective power converter is moving over an activated field coil. 12. The electrical machine according to claim 6 , wherein the load bearing plates are made of an alloy of nickel, chromium and iron. 13. The electrical machine according to claim 6 , wherein the load bearing plates are made of alloys.