Steam turbine preheating system

We claim: 1. A power generation system, comprising: a gas turbine engine; the gas turbine engine creating a flow of combustion gases; a steam turbine; and a steam turbine preheating system; wherein the steam turbine preheating system receives an extraction of the flow of combustion gases and delivers the extraction to the steam turbine to preheat the steam turbine. 2. The power generation system of claim 1 , wherein the gas turbine engine comprises a turbine casing and wherein the extraction extends from the turbine casing to the steam turbine. 3. The power generation system of claim 1 , wherein the steam turbine preheating system comprises a filter system that filters the extraction of the flow of combustion gases. 4. The power generation system of claim 3 , wherein the filter system comprises an electrostatic precipitator therein. 5. The power generation system of claim 1 , wherein the steam turbine preheating system comprises a blower downstream of the steam turbine. 6. The power generation system of claim 1 , wherein the steam turbine comprises a steam turbine shell and wherein the extraction extends to the steam turbine shell. 7. The power generation system of claim 1 , further comprising a heat recovery steam generator. 8. The power generation system of claim 1 , wherein the steam turbine preheating system comprises an attemperation system. 9. The power generation system of claim 8 , wherein the attemperation system comprises a spray system for at least one of a water injection and a steam injection. 10. The power generation system of claim 1 , wherein the steam turbine preheating system comprises an ejector. 11. The power generation system of claim 10 , wherein the ejector is in communication with at least one of an ambient air flow, a filtered air flow, and a compressor air extraction. 12. The power generation system of claim 1 , wherein the steam turbine preheating system comprises a cascading ejector system. 13. The power generation system of claim 12 , wherein the cascading ejector system comprises a first ejector in communication with a compressor of the gas turbine engine and a second ejector in communication with a turbine of the gas turbine engine. 14. The power generation system of claim 1 , wherein the steam turbine preheating system comprises a further extraction from downstream of the gas turbine engine. 15. A method of preheating a steam turbine in a power generation system, comprising: extracting hot combustion gases from a gas turbine; filtering the extraction of the hot combustion gases; and flowing the extraction of the hot combustion gases to the steam turbine to warm a shell of the steam turbine. 16. A combined cycle power generation system, comprising: a gas turbine engine; the gas turbine engine creating a flow of hot combustion gases; a steam turbine; a heat recovery steam generator; and a steam turbine preheating system; wherein the steam turbine preheating system receives an extraction of the flow of combustion gases and delivers the extraction to the steam turbine to preheat the steam turbine. 17. The combined cycle power generation system of claim 16 , wherein the gas turbine engine comprises a turbine casing and wherein the extraction extends from the turbine casing to the steam turbine. 18. The combined cycle power generation system of claim 16 , wherein the steam turbine preheating system comprises a filter system that filters then extraction of the flow of combustion gases. 19. The combined cycle power generation system of claim 16 , wherein the steam turbine comprises a steam turbine shell and wherein the flow of hot combustion gases extends from the gas turbine engine to the steam turbine shell. 20. The combined cycle power generation system of claim 16 , wherein the steam turbine preheating system comprises a spray system for at least one of a water injection and a steam injection.