Fuel cell power plant with real and reactive power modes

I claim: 1. A fuel cell power plant, comprising: a cell stack assembly including a plurality of fuel cells configured to generate electricity based on an electrochemical reaction; a capacitor; a plurality of inverters; and at least one controller that is configured to control the plurality of inverters in a first mode and a second mode, the first mode including the cell stack assembly associated with a first one of the inverters, the cell stack assembly and the first one of the inverters providing real power to a load external to the fuel cell power plant, wherein the first mode includes the capacitor associated with at least one of the plurality of inverters, and wherein the first mode further includes the capacitor providing supplemental power output from the fuel cell power plant to the load when there is an increase in a load demand on the fuel cell power plant, and the second mode including at least a second one of the inverters associated with the capacitor, the second one of the inverters and the capacitor selectively providing reactive power to a grid external to the fuel cell power plant and selectively receiving reactive power from the grid, wherein the reactive power of the second mode is the only power output from the fuel cell power plant that is external to the fuel cell power plant in the second mode, wherein the capacitor and the second one of the inverters are the only source of the reactive power supplied by the fuel cell power plant to the grid external to the fuel cell power plant in the second mode, wherein the capacitor is charged by the reactive power received from the grid in the second mode, wherein the second mode includes at least one of the inverters and the cell stack assembly configured for providing power to at least one other component of the fuel cell power plant, and wherein the controller controls at least one switch to isolate power output of the cell stack assembly from the reactive power output of the second mode. 2. The fuel cell power plant of claim 1 , wherein more than one of the plurality of inverters is associated with the capacitor in the second mode. 3. The fuel cell power plant of claim 1 , wherein the real power is a low voltage power less than or equal to 600 kilowatts. 4. The fuel cell power plant of claim 1 , comprising a DC bus between the cell stack assembly and the plurality of inverters; and wherein the controller selectively controls the at least one switch to couple the cell stack assembly, the capacitor, and selected ones of the plurality of inverters respectively to the DC bus. 5. The fuel cell power plant of claim 1 , comprising an output configured to be coupled to the load external to the fuel cell power plant; an AC bus between the plurality of inverters and the output; and wherein the controller selectively couples selected ones of the plurality of inverters to the output. 6. The fuel cell power plant of claim 1 , wherein the cell stack assembly is not used for providing any electrical output external to the fuel cell power plant in the second mode. 7. A method of operating a fuel cell power plant including a cell stack assembly, a capacitor, and a plurality of inverters, the method comprising: controlling the plurality of inverters in a first mode and a second mode; using the cell stack assembly and a first one of the inverters for providing real power to a load external to the fuel cell power plant in the first mode; providing supplemental power output from the fuel cell power plant to the load using the capacitor and at least one of the plurality of inverters associated with the capacitor in the first mode when there is an increase in a load demand on the fuel cell power plant; using the capacitor and at least a second one of the inverters for selectively providing reactive power to a grid external to the fuel cell power plant in the second mode, wherein the reactive power of the second mode is the only power output from the fuel cell power plant that is external to the fuel cell power plant in the second mode, wherein the capacitor and the second one of the inverters are the only source of the reactive power supplied by the fuel cell power plant external to the fuel cell power plant in the second mode; using the capacitor and at least the second one of the inverters for selectively receiving reactive power from the grid external to the fuel cell power plant in the second mode; charging the capacitor using the reactive power received from the grid in the second mode; using the cell stack assembly and at least one of the inverters for providing power to at least one other component of the fuel cell power plant in the second mode; and controlling at least one switch to isolate power output of the cell stack assembly from the reactive power output of the second mode. 8. The method of claim 7 , wherein more than one of the plurality of inverters is associated with the capacitor in the second mode. 9. The method of claim 7 , wherein the real power is a low voltage power less than or equal to 600 kilowatts. 10. The method of claim 7 , wherein the cell stack assembly is not used for providing any electrical output external to the fuel cell power plant in the second mode.