System and method to apply multiple thermal treatments to workpiece and related turbomachine components

What is claimed is: 1. A system for thermal treatment of a workpiece, the system comprising: an enclosure having an interior sized to enclose the workpiece, and configured to maintain a vacuum or a pressurized atmosphere within the interior; and a plurality of thermal applicators including: a first thermal applicator in thermal communication with a first portion of the interior and configured to apply a first thermal treatment to a first portion of the workpiece in the first portion of the interior, and a second thermal applicator in thermal communication with a second portion of the interior different from the first portion of the interior and configured to apply a second thermal treatment to a second portion of the workpiece in the second portion of the interior, wherein the second thermal applicator is operationally independent of the first thermal applicator, wherein a position of the first thermal applicator relative to the second thermal applicator causes the first thermal treatment to affect only the first portion of the interior and causes the second thermal treatment to affect only the second portion of the interior. 2. The system of claim 1 , wherein the workpiece comprises a turbomachine component having a base portion within the first portion of the interior, and an airfoil portion within the second portion of the interior. 3. The system of claim 1 , wherein each of the plurality of thermal applicators includes: at least one heating element in thermal communication with the first portion or the second portion of the interior; and at least one cooling fluid injector in fluid communication with the first portion or the second portion of the workpiece, wherein the at least one cooling fluid injector of the first thermal applicator injects a different cooling fluid from the at least one cooling fluid injector of the second thermal applicator. 4. The system of claim 3 , wherein the at least one heating element includes an induction heating coil including one of graphite, molybdenum, molybdenum-lanthanum alloy, silicon carbide, or molybdenum disilicide. 5. The system of claim 3 , wherein the at least one cooling fluid injector of the first thermal applicator or the at least one cooling fluid injector of the second thermal applicator injects one of argon (Ar), helium (He), nitrogen (N), or air. 6. The system of claim 1 , wherein: the first thermal treatment applied with the first thermal applicator includes: heating the first portion of the workpiece to a first temperature, maintaining the first portion of the workpiece at the first temperature for a first time span, and cooling the first portion of the workpiece at a first cooling rate, and the second thermal treatment applied with the second thermal applicator includes: heating the second portion of the workpiece to a second temperature different from the first temperature, maintaining the second portion of the workpiece at the second temperature for a second time span different from the first time span, and cooling the second portion of the workpiece at a second cooling rate different from the first cooling rate. 7. The system of claim 1 , wherein the interior of the enclosure is sized to enclose a plurality of workpieces from the environment, wherein the first thermal applicator is further configured to apply the first thermal treatment to a first portion of each of the plurality of workpieces, and wherein the second thermal applicator is further configured to apply the second thermal treatment to a second portion of each of the plurality of workpieces with a plurality of second thermal applicators. 8. The system of claim 1 , wherein the plurality of thermal applicators further includes a third thermal applicator within a third portion of the interior different from the first portion and the second portion of the interior, and configured to apply a third thermal treatment to a third portion of the workpiece within the third portion of the interior independently of the first thermal treatment and the second thermal treatment. 9. The system of claim 8 , wherein the workpiece comprises a turbomachine component having a base portion within the first portion of the interior, an airfoil portion within the second portion of the interior, and a tip portion within the third portion of the interior. 10. The system of claim 1 , wherein the enclosure is configured to maintain the vacuum at a pressure of at most approximately 0.013 millibar. 11. The system of claim 1 , wherein the enclosure is configured to maintain the pressurized atmosphere at a pressure of between approximately 1.0 bar and 12 bar. 12. A system for thermal treatment of a workpiece, the system comprising: an enclosure having an interior sized to enclose the workpiece, and configured to maintain a vacuum or a pressurized atmosphere within the interior; a plurality of thermal applicators including: a first thermal applicator in thermal communication with a first portion of the interior and configured to apply a first thermal treatment to a first portion of the workpiece in the first portion of the interior, a second thermal applicator in thermal communication with a second portion of the interior different from the first portion of the interior and configured to apply a second thermal treatment to a second portion of the workpiece in the second portion of the interior, wherein the second thermal applicator is operationally independent of the first thermal applicator, and a third thermal applicator in thermal communication with a third portion of the interior different from the first portion and the second portion of the interior and configured to apply a third thermal treatment to a third portion of the workpiece in the third portion of the interior, wherein the third thermal applicator is operationally independent of the first and second thermal applicators. 13. The system of claim 12 , wherein each of the first thermal applicator, the second thermal applicator, and the third thermal applicator includes: a heater in thermal communication with the interior of the enclosure; and a cooling fluid injector in fluid communication with the interior of the enclosure. 14. The system of claim 12 , wherein the cooling fluid injector of one of the first thermal applicator, the second thermal applicator, or the third thermal applicator is coupled to a cooling fluid supply configured to supply one of argon (Ar), helium (He), nitrogen (N), or air. 15. The system of claim 12 , wherein the interior of the enclosure is sized to enclose a plurality of workpieces, the first thermal applicator is configured to apply the first thermal treatment to a first portion of each of the plurality of workpieces, the second thermal applicator is configured to apply the second thermal treatment to a second portion of each of the plurality of workpieces, and the third thermal applicator is configured to apply the third thermal treatment to a third portion of each of the plurality of workpieces. 16. A method for thermal treatment of a workpiece formed of a superalloy material, the method comprising: enclosing a workpiece in an interior of an enclosure from an environment, the enclosure maintaining a vacuum or a pressurized atmosphere within the interior, wherein the workpiece includes a base portion and an airfoil portion coupled to the base portion; applying a first thermal treatment to the base portion of the workpiece in a first portion of the interior of the enclosure, using a first thermal applicator in thermal communication with the base portion of the workpiece, wherein the first thermal treatment has