Wind turbine generator with high temperature superconducting elements

The invention claimed is: 1. An electrical generator comprising: a stator, the stator comprising: a plurality of high-temperature superconducting (HTS) magnets configured to generate a first magnetic field; a stator coil having a first plurality of coils configured to generate a second magnetic field; a rotor comprising: a second plurality of conductive coils, the rotor configured to rotate so that the conductive coils move through the first magnetic field generated by the plurality of HTS magnets to produce electrical power; and a third plurality of conductive coils coupled in series with the second plurality of conductive coils and positioned to rotate through the second magnetic field; and wherein the first plurality of coils of the stator coil and the third plurality of conductive coils are positioned closer to a centerline of the electrical generator than the plurality of HTS magnets and the second plurality of conductive coils. 2. The electrical generator of claim 1 wherein the rotor is coupled to a wind turbine that rotates the rotor. 3. The electrical generator of claim 1 wherein the plurality of HTS magnets are arranged to form a ring around the rotor. 4. The electrical generator of claim 1 wherein at least one HTS magnet of the plurality of HTS magnets comprises: a coil comprising an HTS tape; a housing comprising at least a first partition, wherein: the coil is arranged within the housing; the first partition of the housing is arranged to separate a first portion of the coil from a second portion of the coil such that turns of the first portion of the coil are entirely arranged within the first partition and turns of the second portion of the coil are entirely arranged outside of the first partition; and the first partition comprises a slit through which current leads of the coil pass. 5. The electrical generator of claim 4 wherein the first partition is configured to distribute mechanical forces within the at least one HTS magnet. 6. The electrical generator of claim 4 wherein the at least one HTS magnet of the plurality of HTS magnets comprises an electrically conducting material arranged between at least some electrically insulated turns of the coil. 7. The electrical generator of claim 1 wherein at least one HTS magnet of the plurality of HTS magnets comprises: a plurality of pancakes, each of the pancakes having one or more turns of high temperature superconductor (HTS) tape and one or more joints for electrically coupling the one or more turns of HTS tape as part of an electrical circuit; and a plurality of cooling plates, each of the cooling plates having a terminal for thermally coupling the cooling plate to a cooling apparatus; wherein the plurality of pancakes and the plurality of cooling plates are stacked in an alternating fashion, each of the pancakes being electrically coupled by its one or more joints to the joints of either one or two neighboring pancakes, thereby forming an operating current path that includes the HTS tape in each of the pancakes, and each of the pancakes being adjacent to either one or two of the cooling plates for removing heat from the pancake via thermal conduction to the cooling apparatus. 8. The electrical generator of claim 1 wherein at least one HTS magnet of the plurality of HTS magnets has an oblong shape. 9. The electrical generator of claim 1 wherein at least one coil of the second plurality of conductive coils comprises at least one cable having a plurality of HTS components. 10. The electrical generator of claim 9 wherein the at least one coil of the second plurality of conductive coils further comprises: a plurality of electrically conductive segments extending along the cable, each of the plurality of electrically conductive segments comprising one of the plurality of HTS components; and an electrically insulating material arranged between adjacent electrically conductive segments of the plurality of electrically conductive segments that electrically insulates the plurality of electrically conductive segments from one another. 11. The electrical generator of claim 9 wherein the plurality of HTS components comprises HTS tape. 12. The electrical generator of claim 11 wherein the plurality of HTS components comprises a stack of HTS tape. 13. The electrical generator of claim 1 wherein at least one coil of the first plurality of conductive coils and/or at least one coil of the third plurality of conductive coils comprises a cable having a plurality of HTS components. 14. The electrical generator of claim 13 wherein the cable comprises: a plurality of electrically conductive segments extending along the cable, each of the plurality of electrically conductive segments comprising at least one of the plurality of HTS components; and an electrically insulating material arranged between adjacent electrically conductive segments of the plurality of electrically conductive segments that electrically insulates the plurality of electrically conductive segments from one another. 15. A turbine generator comprising: a stator, the stator comprising first and second stator coils, each of first and second stator coils comprising a plurality of high-temperature superconducting (HTS) magnets; a rotor comprising first and second rotor coils with phases of the first rotor coil coupled in series with like phases of the second rotor coil and with the first rotor coil positioned closer to a centerline of the turbine generator than the first stator coil, the second rotor coil positioned closer to a centerline of the turbine generator than the first rotor coil and the second stator coil positioned closer to a centerline of the turbine generator than the second rotor coil; and a plurality of wind turbine blades coupled to the rotor. 16. The turbine generator of claim 15 wherein the first and second rotor coils comprises at least one cable, the at least one cable comprising: a plurality of HTS components; a plurality of electrically conductive segments extending along the cable, each of the plurality of electrically conductive segments comprising at least one of the plurality of HTS components; and an electrically insulating material arranged between adjacent electrically conductive segments of the plurality of electrically conductive segments that electrically insulates the plurality of electrically conductive segments from one another. 17. The turbine generator of claim 15 wherein at least one HTS magnet of the plurality of HTS magnets comprises: an HTS tape in at least one of the first and second stator coils; a housing comprising at least a first partition; wherein: the at least one of the first and second stator coils is arranged within the housing; the first partition of the housing is arranged to separate a first portion of the at least one of the first and second stator coils from a second portion of the at least one of the first and second stator coils such that turns of the first portion of the at least one of the first and second stator coils are entirely arranged within the first partition and turns of the second portion of the at least one of the first and second stator coils are entirely arranged outside of the first partition; and the first partition comprises a slit through which pass current leads of the at least one of the first and second stator coils. 18. A turbine generator comprising: a stator comprising first A and second D stator coils for generating respective ones of first and second magnetic fields; and a rotor comprising first B and second C r