Turbine thermal clearance management system

What is claimed is: 1. A thermal control system for a turbine, the thermal control system comprising: a thermal source in thermal communication with a portion of a turbine; a set of sensors disposed about the turbine and configured to obtain operational data from the turbine; and a computing device communicatively connected to the thermal source and the set of sensors, wherein the computing device regulates a thermal input from the thermal source to the turbine by performing actions including: generating a predictive model of the turbine based on the operational data obtained by the set of sensors, wherein the predictive model relates the operational data to at least one thermal attribute of the turbine, the at least one thermal attribute including a clearance between components and a thermal deflection in the portion of the turbine, predicting a value of the at least one thermal attribute in the portion of the turbine at an adjusted temperature using the predictive model, and adjusting the thermal input from the thermal source to yield the adjusted temperature and the predicted value of the at least one thermal attribute in the portion of the turbine. 2. The thermal control system of claim 1 , wherein the thermal source includes a plurality of segmented thermal components. 3. The thermal control system of claim 1 , wherein the thermal source includes at least one of: a thermal blanket, a thermal pad, a ceramic resistance pad, or an electric heating element. 4. The thermal control system of claim 1 , wherein the set of sensors include at least one of: a thermocouple, a clearance probe, or a deflection sensor. 5. The thermal control system of claim 1 , wherein the computing device is further configured to regulate the thermal input by cooling of the turbine and heating the turbine while adjusting the thermal input from the thermal source. 6. The thermal control system of claim 1 , wherein the predictive model generated in the computing device is further relates the operational data to each of the clearance between components and the thermal deflection in the portion of the turbine. 7. A power generation system comprising: a turbine; a thermal source in thermal communication with a portion of the turbine; and at least one computing device communicatively connected to the turbine and the thermal source, wherein the at least one computing device to thermally manages clearances between components of the turbine by performing actions including: processing operational data from a set of sensors disposed about the turbine, generating a predictive model of the turbine based on the processed operational data, wherein the predictive model relates the operational data to at least one clearance between components in the portion of the turbine, predicting a value of the at least one clearance between components in the portion of the turbine at an adjusted temperature using the predictive model, and adjusting an input of the thermal source to yield the adjusted temperature and the predicted value of the at least one clearance between components in the portion of the turbine. 8. The power generation system of claim 7 , wherein the thermal source includes a plurality of segmented thermal components. 9. The power generation system of claim 7 , wherein the at least one computing device further controls the thermal source to cool of the turbine and heat the turbine while adjusting the thermal input from the thermal source. 10. The power generation system of claim 7 , wherein the set of sensors include at least one of: a thermocouple, a clearance probe, or a deflection sensor. 11. A turbine, comprising: a stator; a working fluid passage substantially surrounded by the stator; a rotor configured radially inboard of the working fluid passage; and a thermal control system disposed about the stator, the thermal control system including: a set of sensors disposed about the turbine and configured to obtain operational data from the turbine; a thermal source shaped to connect to the stator and in thermal communication with a portion of the turbine; and a computing device communicatively connected to the thermal source, wherein the computing device thermally manages clearances between components of the turbine by performing actions including: processing operational data from the set of sensors; generating a predictive model of the turbine based on the processed operational data, wherein the predictive model relates the operational data to at least one thermal attribute of the turbine, the at least one thermal attribute including a clearance between components in the portion of the turbine and a thermal deflection in the portion of the turbine, predicting a value of the at least one thermal attribute in the portion of the turbine at an adjusted temperature using the predictive model, and adjusting an input of the thermal source to yield the adjusted temperature and the predicted value of the at least one thermal attribute in the portion of the turbine. 12. The turbine of claim 11 , wherein the thermal source includes a plurality of segmented thermal components. 13. The turbine of claim 11 , wherein the computing device is further configured to generate the predictive model of the turbine such that the predictive model relates the operational data to each of the clearance between components and the thermal deflection in the portion of the turbine.