System and method for preheating a heat recovery steam generator

What is claimed is: 1. A system for preheating a heat recovery steam generator, the system comprising: a tank containing a transferring medium; a heat exchanger, disposed in a flow path of a flue gas produced by a combustion chamber, the heat exchanger being fluidly connected to the tank such that the transferring medium flows through the heat exchanger and is heated by the flue gas; and wherein the transferring medium heats one or more components of the heat recovery steam generator, via thermal energy absorbed from the flue gas, before the one or more components are directly contacted by the flue gas as part of steam generation operations. 2. The system of claim 1 , wherein the transferring medium flows between the tank and the heat exchanger via at least one of natural convection and forced convection. 3. The system of claim 1 , wherein the tank is an evaporator drum and the transferring medium is drum water. 4. The system of claim 1 , wherein the one or more components of the heat recovery steam generator include one or more pressure parts. 5. The system of claim 4 , wherein the one or more pressure parts include at least one of an evaporator and a superheater. 6. The system of claim 1 , wherein the heat recovery steam generator is configured to recover thermal energy from the flue gas after the one or more components have been heated via the transferring medium. 7. The system of claim 6 , wherein the heat recovery steam generator is a secondary generator of a combined cycle power generation plant where the one or more components of the heat recovery steam generator are exposed to the flue gas when the combined cycle power generation plant is in a combined-cycle mode, and where the one or more components of the heat recovery steam generator are not exposed to the flue gas when the combine-cycle-power-generation plant is in a simple-cycle mode. 8. The system of claim 7 , wherein when the combined cycle power generation plant is in the simple-cycle mode, a bypass stack forms part of the flow path and allows the flue gas to bypass the heat recovery steam generator, and the heat exchanger is further disposed in the bypass stack. 9. The system of claim 7 , wherein the heat exchanger is fluidly isolated from the tank when the combined cycle power generation plant is in the combined-cycle mode. 10. A method for preheating a heat recovery steam generator, the method comprising: containing a transferring medium in a tank disposed in the heat recovery steam generator; heating the transferring medium via a heat exchanger disposed in a flow path of a flue gas produced by a combustion chamber, the heat exchanger fluidly connected to the tank such that the transferring medium flows through the heat exchanger; and heating one or more components of the heat recovery steam generator, via thermal energy absorbed from the flue gas by the transferring medium, before the one or more components are directly contacted by the flue gas as part of steam generation operations. 11. The method of claim 10 , wherein the transferring medium flows between the tank and the heat exchanger via at least one of natural convection and forced convection. 12. The method of claim 10 , wherein the tank is an evaporator drum and the transferring medium is drum water. 13. The method of claim 10 , wherein the one or more components of the heat recovery steam generator include one or more pressure parts. 14. The method of claim 13 , wherein the one or more pressure parts include at least one of an evaporator and a superheater. 15. The method of claim 10 , wherein the heat recovery steam generator is configured to recover thermal energy from the flue gas. 16. The method of claim 15 , wherein the heat recovery steam generator is a secondary generator of a combined cycle power generation plant, and the method further comprises: operating the combined cycle power generation plant in a combined-cycle mode in which the one or more components of the heat recovery steam generator are exposed to the flue gas; and operating the combined cycle power generation plant in a simple-cycle mode in which the one or more components of the heat recovery steam generator are not exposed to the flue gas. 17. The method of claim 16 , wherein when the combined cycle power generation plant is in the simple-cycle mode, a bypass stack forms part of the flow path and allows the flue gas to bypass the heat recovery steam generator, and the heat exchanger is further disposed in the bypass stack. 18. The method of claim 16 , wherein, operating the combined cycle power generation plant in the combined-cycle mode comprises: fluidly isolating the heat exchanger from the tank. 19. A system for preheating a heat recovery steam generator of a combined cycle power generation plant, the system comprising: an evaporator drum, disposed in the heat recovery steam generator, containing drum water, the heat recovery steam generator configured to recover thermal energy from a flue gas produced by a primary generator of the combined cycle power generation plant when the combined cycle power generation plant is in a combined-cycle mode; a heat exchanger, disposed in a bypass stack of the combined cycle power generation plant, fluidly connected to the evaporator drum; and wherein when the combined cycle power generation plant is in a simple-cycle mode, the drum water flows through the heat exchanger, the bypass stack allows the flue gas to bypass the heat recovery steam generator and heat the drum water flowing through the heat exchanger, and one or more pressure parts of the heat recovery steam generator are preheated via the drum water before the one or more pressure parts are exposed to the flue gas when the combined cycle power generation plant is in the combined-cycle mode. 20. The system of claim 19 , wherein the heat exchanger is fluidly isolated from the evaporator drum when the combined cycle power generation plant is in the combined-cycle mode. 21. A system for preheating a heat recovery steam generator, the system comprising: a tank containing a transferring medium; a heat exchanger, disposed in a flow path of a flue gas produced by a combustion chamber, the heat exchanger being fluidly connected to the tank such that the transferring medium flows through the heat exchanger and is heated by the flue gas; and wherein the transferring medium preheats one or more components of the heat recovery steam generator, the heat recovery steam generator is configured to recovery thermal energy from the flue gas after the one or more components have been preheated via the transferring medium, the heat recovery steam generator is a secondary generator of a combined cycle power generation plant where the one or more components of the heat recovery steam generator are exposed to the flue gas when the combined cycle power generation plant is in a combined-cycle mode, and where the one or more components of the heat recovery steam generator are not exposed to the flue gas when the combine-cycle-power-generation plant is in a simple-cycle mode, and when the combined cycle power generation plant is in the simple-cycle mode, a bypass stack forms part of the flow path and allows the flue gas to bypass the heat recovery steam generator, and the heat exchanger is further disposed in the bypass stack. 22. A method for preheating a heat recovery steam generator, the method comprising: containing a transferring medium in a tank disposed in the heat recovery steam gener