Systems for reducing startup emissions in power plant including gas turbine

What is claimed is: 1. An emission reduction system for a power plant including a gas turbine, the system comprising: an emission filter; a retraction system operably coupled to an exhaust passage of the gas turbine, the exhaust passage defining an exhaust path of exhaust from the gas turbine, the retraction system selectively moving the emission filter between a first location within the exhaust path and a second location outside of the exhaust path; and a controller operably coupled to the retraction system configured to instruct the retraction system to move the emission filter between the first location and the second location in response to an emission condition of the exhaust from the gas turbine, wherein the emission condition includes an exhaust temperature of the exhaust, and wherein the controller instructs the retraction system to move the emission filter to the first location in response to the exhaust temperature of the exhaust being within a predetermined temperature range, and instructs the retraction system to move the emission filter to the second location in response to the exhaust temperature being outside the predetermined temperature range. 2. The emission reduction system of claim 1 , wherein the power plant further includes a heat recovery steam generator (HRSG) operably coupled to the exhaust passage of the gas turbine for generating steam for a steam turbine, and wherein the first location is upstream of the HRSG. 3. The emission reduction system of claim 1 , wherein the emission condition includes at least one exhaust component level. 4. The emission reduction system of claim 1 , wherein the predetermined temperature range is between 398° Celsius and 537° Celsius. 5. The emission reduction system of claim 3 , wherein the controller instructs the retraction system to move the emission filter to the first location in response to the at least one exhaust component level exceeding a respective exhaust component limit, and instructs the retraction system to move the emission filter to the second location in response to the at least one exhaust component level not exceeding the respective exhaust component limit. 6. The emission reduction system of claim 1 , wherein the emission filter includes a carbon monoxide (CO) catalyst filter. 7. The emission reduction system of claim 1 , wherein the emission filter includes a selective catalytic reduction (SCR) filter, and further comprising an SCR reducing agent injector upstream of the first location of the exhaust passage. 8. The emission reduction system of claim 7 , further comprising a carbon monoxide (CO) catalyst filter downstream of the SCR filter and upstream of a heat recovery steam generator (HRSG) operably coupled to the exhaust passage of the gas turbine for generating steam for a steam turbine. 9. The emission reduction system of claim 1 , wherein the emission filter includes a series of pivotally coupled panels, each respective panel of the series of pivotally coupled panels including an open structure frame having a filter medium therein through which the exhaust passes and a pair of opposing bearings extending from opposing ends of the respective panel. 10. The emission reduction system of claim 9 , wherein the retraction system includes: a pair of bearing tracks, each track of the pair of bearing tracks configured to receive a respective bearing from one of the pairs of opposing bearings of the series of pivotally coupled panels, the pair of bearing tracks each including a first portion arranged to position the emission filter at the first location in the exhaust passage in response to the respective bearings being in the first portion, a second portion arranged to position the emission filter at the second location in response to the respective hearings being in the second portion, and a transition portion coupling the first portion and the second portion, and an actuator configured to move the emission filter along the pair of bearing tracks. 11. The emission reduction system of claim 1 , further comprising an emission filter enclosure within the exhaust passage, wherein the second location positions the emission filter within the emission filter enclosure. 12. The emission reduction system of claim 1 , wherein the exhaust passage includes an opening configured to permit movement of the emission filter therethrough to an outside of the exhaust passage, and further comprising an emission filter enclosure outside of the exhaust passage, wherein the second location positions the emission filter within the emission filter enclosure. 13. The emission reduction system of claim 1 , further comprising an exhaust flow distributor upstream of the emission filter. 14. A method of reducing emissions for a power plant including a gas turbine, the method comprising: providing an emission filter operably coupled to a retraction system that is operably coupled to an exhaust passage of the gas turbine, the exhaust passage defining an exhaust path of exhaust from the gas turbine; and selectively moving the emission filter, using the retraction system, between a first location within the exhaust path and a second location outside of the exhaust path in response to an emission condition of the exhaust from the gas turbine, wherein the emission condition includes at least one of: an exhaust temperature of the exhaust and at least one exhaust component level, and wherein the selective moving includes moving the emission filter to the first location in response to the exhaust temperature of the exhaust being within a predetermined temperature range, and moving the emission filter to the second location in response to the exhaust temperature being outside the predetermined temperature range. 15. The method of claim 14 , wherein the power plant further includes a heat recovery steam generator (HRSG) operably coupled to the exhaust passage of the gas turbine for generating steam for a steam turbine, and wherein the first location is upstream of the HRSG. 16. The method of claim 14 , wherein the selective moving includes moving the emission filter to the first location in response to the at least one exhaust component level exceeding a respective exhaust component limit, and moving the emission filter to the second location in response to the at least one exhaust component level not exceeding the respective exhaust component limit.