Over-powering

The claimed invention is: 1. A method of operating a power plant, the method comprising: operating a higher efficiency gas turbine engine to drive an electrical generator for generating electrical power; generating steam with exhaust gas of the higher efficiency gas turbine engine using a heat recovery steam generator; driving a steam turbine with steam from the heat recovery steam generator, wherein the steam turbine has a capacity greater than an output of steam generated by the heat recovery steam generator as driven by the higher efficiency gas turbine engine; driving a steam electric generator from the steam turbine; in response to a sum of output from the steam electric generator and the electrical generator being less than an electrical demand from a grid, selectively operating one or more lower efficiency gas turbine engines to drive one or more electrical generators for generating electrical power, the lower efficiency gas turbine engines being less efficient than the higher efficiency gas turbine; and conditioning exhaust gas of the one or more lower efficiency gas turbine engines using one or more modified heat recovery steam generators. 2. The method of claim 1 , wherein the one or more modified heat recovery steam generators comprises a previously-installed heat recovery steam generator housing from which at least some previously-installed components are removed. 3. The method of claim 2 , further comprising: generating steam with exhaust gas of the one or more lower efficiency gas turbine engines; and additionally driving the steam turbine with steam generated from the one or more heat recovery steam generators as driven by the one or more lower efficiency gas turbine engines. 4. The method of claim 3 , wherein generating steam with exhaust gas of the one or more lower efficiency gas turbine engines comprises operating a once-through steam generator positioned within the previously-installed heat recovery steam generator housing. 5. The method of claim 2 , wherein conditioning exhaust gas of the one or more lower efficiency gas turbine engines using one or more modified heat recovery steam generators comprises operating a dilution fan to quench exhaust gas entering an emissions reduction system within the one or more modified heat recovery steam generators. 6. The method of claim 5 , wherein the emission reduction system comprises a previously-installed emissions reduction system of the one or more modified heat recovery steam generators. 7. The method of claim 5 , wherein the emission reduction system comprises a high temperature selective catalytic reduction system. 8. The method of claim 2 , wherein conditioning exhaust gas of the one or more lower efficiency gas turbine engines using one or more modified heat recovery steam generators comprises routing the exhaust gas through a previously-installed stack of the one or more modified heat recovery steam generators. 9. The method of claim 8 , further comprising modifying the one or more lower efficiency gas turbine engines to include an ultra-low NOx combustor. 10. A power plant system comprising: a first gas turbine having a first efficiency configured to produce a first exhaust gas flow; a first electrical generator driven by the first gas turbine; a first heat recovery steam generator configured to receive the first exhaust gas flow and generate a first steam flow; a second gas turbine having a second efficiency less than the first efficiency, the second gas turbine configured to produce a second exhaust gas flow; a second electrical generator driven by the second gas turbine; an exhaust gas conditioning device configured to reduce the temperature of the second exhaust gas flow; a steam turbine driving a steam electrical generator, the steam turbine configured to receive the first steam flow; and a controller comprising: a processor; and a computer readable storage medium having stored thereon instructions that when executed by the processor cause the processor to perform an operation for operating the power plant system, the instructions comprising: in response to a sum of output from the steam electrical generator and the first electrical generator being less than an electrical demand from a grid, operating the second gas turbine to generate electricity with the second electrical generator under peak loading conditions. 11. The power plant system of claim 10 , further comprising a modified heat recovery steam generator configured to operate in conjunction with the second gas turbine, the modified heat recovery steam generator including the exhaust gas conditioning device. 12. The power plant system of claim 11 , wherein the modified heat recovery steam generator comprises a housing of a previously-installed heat recovery steam generator. 13. The power plant system of claim 12 , wherein the exhaust gas conditioning device comprises a steam generator. 14. The power plant system of claim 13 , wherein: the steam generator comprises a once-through steam generator loop installed within the housing of the previously-installed heat recovery steam generator; the once-through steam generator loop generates a second steam flow; and the steam turbine receives the first steam flow and the second steam flow. 15. The power plant system of claim 12 , wherein the exhaust gas conditioning device comprises a dilution fan configured to quench exhaust gas within the housing of the previously-installed heat recovery steam generator. 16. The power plant system of claim 15 , wherein the housing of the previously-installed heat recovery steam generator includes a previously-installed emissions reduction system of the modified heat recovery steam generator. 17. The power plant system of claim 15 , wherein the housing of the previously-installed heat recovery steam generator includes a high temperature selective catalytic reduction system. 18. The power plant system of claim 12 , wherein the exhaust gas conditioning device comprises a previously-installed stack of the modified heat recovery steam generator. 19. The power plant system of claim 18 , the second gas turbine is modified to include an ultra-low NOx combustor.