Fuel preheating system for a combustion turbine engine

The invention claimed is: 1. A combined cycle power plant comprising a gas turbine and a heat recovery steam generator (HRSG) operably engaged to a steam turbine via a water steam cycle that includes multiple pressure levels, the multiple pressure levels comprising at least a higher pressure level and a lower pressure level, the combined cycle power plant further comprising: a fuel line configured to deliver a fuel to a combustion system; a fuel preheater for preheating the fuel before delivery to the combustion system, the fuel preheater comprising first and second heat exchangers; a higher pressure system comprising a higher pressure feedwater line configured to deliver a higher pressure feedwater to: a higher pressure boiler associated with the higher pressure level; and a higher pressure feedwater branch that branches from the higher pressure feedwater line, wherein the higher pressure feedwater branch engages and extends through the fuel preheater and comprises an upstream segment and a downstream segment; a lower pressure system comprising a lower pressure feedwater line for delivering a lower pressure feedwater to: a lower pressure boiler associated with the lower pressure level; and a lower pressure feedwater branch that branches from the lower pressure feedwater line; a junction point at which the downstream segment of the higher pressure feedwater branch combines with the lower pressure feedwater branch; a combined feedwater line extending from the junction point that directs a combined feedwater, wherein the combined feedwater comprises a combined flow of: the higher pressure feedwater delivered to the junction point by the downstream segment of the higher pressure feedwater branch, and the lower pressure feedwater delivered to the junction point by the lower pressure feedwater branch; a check valve disposed on the lower pressure feedwater branch at a position that is upstream relative to the junction point; and a pressure relief valve disposed on the downstream segment of the higher pressure feedwater branch or the combined feedwater line, wherein the check valve and the pressure relief valve are configured to protect the lower pressure system from higher pressures originating in the higher pressure system due to the higher pressure feedwater combining with the lower pressure feedwater at the junction point; wherein the first heat exchanger is configured for exchanging heat between: the combined feedwater delivered to the first heat exchanger by the combined feedwater line; and the fuel within the fuel line; wherein the second heat exchanger is configured for exchanging heat between: the higher pressure feedwater that is delivered to the second heat exchanger by the upstream segment of the higher pressure feedwater branch; and the fuel within the fuel line. 2. The combined cycle power plant according to claim 1 , wherein the downstream segment of the higher pressure feedwater branch does not continue downstream from the fuel preheater to deliver the higher pressure feedwater to the lower pressure boiler. 3. The combined cycle power plant according to claim 1 , wherein the combustion system comprises at least one of: a combustor of the gas turbine or a duct burner positioned in an exhaust duct of the gas turbine. 4. The combined cycle power plant according to claim 1 , wherein: the upstream segment of the higher pressure feedwater branch extends between the higher pressure feedwater line and the fuel preheater, and the upstream segment of the higher pressure feedwater branch carries the higher pressure feedwater to the fuel preheater; and the downstream segment of the higher pressure feedwater branch extends between the fuel preheater and the junction point, and the downstream segment of the higher pressure feedwater branch carries the higher pressure feedwater away from the fuel preheater. 5. The combined cycle power plant according to claim 4 , wherein: the higher pressure feedwater line extends between a higher pressure economizer and the higher pressure boiler; and the lower pressure feedwater line extends between a lower pressure economizer and the lower pressure boiler. 6. The combined cycle power plant according to claim 5 , wherein: the higher pressure feedwater branch branches from the higher pressure feedwater line between the higher pressure economizer and the higher pressure boiler; and the lower pressure feedwater branch branches from the lower pressure feedwater line between the lower pressure economizer and the lower pressure boiler. 7. The combined cycle power plant according to claim 1 , wherein the multiple pressure levels comprises three pressure levels: a high pressure level corresponding to the higher pressure level, an intermediate pressure level corresponding to the lower pressure level, and a low pressure level below the intermediate pressure level. 8. The combined cycle power plant according to claim 1 , wherein the check valve comprises a valve that allows fluid to flow in only one direction through the check valve to enable flow of the lower pressure feedwater through the lower pressure feedwater branch from the lower pressure feedwater line to the junction point. 9. The combined cycle power plant according to claim 1 , wherein the pressure relief valve comprises a valve that allows a pressurized fluid to exit through an auxiliary passage when a pressure limit is exceeded. 10. The combined cycle power plant according to claim 1 , wherein the downstream segment of the higher pressure feedwater branch extends only to the junction point. 11. The combined cycle power plant according to claim 1 , wherein the higher pressure feedwater supplied to the junction point by the downstream segment of the higher pressure feedwater branch has a higher temperature than the lower pressure feedwater supplied to the junction point by the lower pressure feedwater branch, such that the combined feedwater in the combined feedwater line downstream from the junction point has a higher temperature than the lower pressure feedwater supplied to the junction point. 12. A combined cycle power plant comprising: a gas turbine; a heat recovery steam generator (HRSG) operably engaged to a steam turbine via a water steam cycle that includes three pressure levels, wherein the three pressure levels comprise: a high pressure level; an intermediate pressure level; and a low pressure level; a fuel line configured to deliver a fuel to a combustion system; a fuel preheater for preheating the fuel before delivery to the combustion system; a high pressure system comprising a high pressure feedwater branch that operably engages and extends through the fuel preheater, wherein the high pressure feedwater branch comprises upstream and downstream segments defined to each side of the fuel preheater such that: the upstream segment carries a higher pressure feedwater to the fuel preheater; and the downstream segment carries the higher pressure feedwater away from the fuel preheater; an intermediate pressure system comprising an intermediate pressure feedwater branch; a junction point at which the downstream segment of the high pressure feedwater branch is combined with the intermediate pressure feedwater branch; a combined feedwater line extending from the junction point for directing a combined feedwater therefrom, wherein the combined feedwater line operably engages and extends through the fuel preheater; a first heat exchanger of the fuel preheater that is configured to exchange heat between the combined feedwater within the combined feedwater line and the fuel within the fuel line; a second heat exchanger of the fuel preheater that is conf