Method for operating a solar thermal power system with an economizer recirculation line

What is claimed is: 1. A method of operating a solar thermal power system, comprising: providing a solar receiver; with a thermal energy storage arrangement, circulating a thermal energy storage fluid through the solar receiver to store thermal energy; operating a multistage steam turbine on variable pressure steam generated from feedwater supplied from a feedwater supply via the thermal energy storage fluid; providing a steam generator arrangement comprising an economizer section, an evaporator section and a superheater section that utilizes heat of the thermal energy storage fluid at an entrance of the evaporator section to generate and supply the variable pressure steam to the superheater section and further to the multistage steam turbine; providing a recirculation line around the economizer section, the recirculation line having an inlet and an outlet, the inlet of the recirculation line disposed at one of an outlet from the economizer section or the evaporator section, the outlet of the recirculation line disposed at an inlet of the feedwater to the economizer, and the recirculation line configured directly between the inlet and the outlet of the recirculation line such that all heated water directed into the inlet of the recirculation line is discharged at the outlet of the recirculation line; adjusting recirculation through the recirculation line to increase efficiency of the thermal power system by: increasing flow of heated water through the recirculation line to the economizer white reducing temperature of the feedwater supplied from the feedwater supply to the economizer; and maintaining temperature of the thermal energy storage fluid leaving the economizer at a lowest level for safe operation above a freezing temperature of the thermal energy storage fluid. 2. The method of claim 1 , wherein the inlet of the recirculation line is configured from the outlet of the economizer section and the outlet of the recirculation line is configured at the inlet of the economizer section. 3. The method of claim 1 , wherein the inlet of the recirculation line is configured from the evaporator section and the outlet of the recirculation line is configured at the inlet of the economizer section. 4. The method of claim 1 , wherein the evaporator section comprises a steam drum, and the inlet of the recirculation line is configured from the steam drum. 5. The method of claim 1 , further comprising bypassing the economizer section to supply the water from the feedwater supply directly to the evaporator section. 6. The method of claim 1 , further comprising reheating steam with a reheat assembly configured to the steam generator. 7. The method of claim 1 , further comprising: storing the hot thermal energy storage fluid in a first storage tank of the thermal energy storage arrangement; to store the thermal energy storage fluid heated by the solar receiver; storing the cold thermal energy storage fluid in a second storage tank; and supplying the cold thermal energy storage fluid from the second storage tank to the solar receiver to be reheated.