Control systems and methods suitable for use with power production systems and methods

The invention claimed is: 1. A power production plant comprising: a compressor arranged to receive and compress a low pressure stream comprising CO 2 to form a compressed stream comprising CO 2 ; a pump arranged to receive and pressurize at least a portion of the compressed stream comprising CO 2 and output a high pressure stream comprising CO 2 ; a combustor arranged to receive fuel from a fuel stream, receive an oxidant from an oxidant stream, and receive the high pressure stream comprising CO 2 and output a stream of heated, high pressure gases that comprise CO 2 ; a turbine arranged to receive and expand the heated, high pressure gases that comprise CO 2 and output the low pressure stream comprising CO 2 ; a power producing generator; and a controller configured to execute one or more control algorithms effective to modify an operating condition of one or more of the compressor, the pump, and the combustor. 2. The power production plant of claim 1 , wherein the controller includes a power controller configured to receive an input related to power produced by the power producing generator and provide an output that is configured to control a heat output by the combustor. 3. The power production plant of claim 2 , wherein the power controller is configured to meet one or both of the following requirements: provide an output to the combustor to increase or decrease heat production by the combustor; provide an output to a fuel valve to allow more fuel or less fuel to be passed to the combustor in the fuel stream. 4. The power production plant of claim 1 , wherein the controller includes a fuel/oxidant ratio controller configured to receive one or both of an input related to a flow rate of the fuel stream received into the combustor and an input related to a flow rate of the oxidant stream into the combustor and provide an output that is configured to control a heat output by the combustor. 5. The power production plant of claim 4 , wherein the fuel/oxidant ratio controller is configured to meet one or both of the following requirements: provide an output to a fuel valve to allow more fuel or less fuel to be passed to the combustor in the fuel stream; provide an output to an oxidant valve to allow more oxidant or less oxidant to be passed to the combustor in the oxidant stream. 6. The power production plant of claim 1 , wherein the controller includes a pump controller configured to receive an input related to a temperature of the low pressure stream comprising CO 2 exiting the turbine and provide an output to the pump to control a flow rate of the high pressure stream comprising CO 2 output from the pump. 7. The power production plant of claim 6 , wherein the pump controller is configured to control the pump so that the high pressure stream comprising CO 2 output from the pump is delivered at a mass flow rate and pressure according to an inlet temperature of the turbine. 8. The power production plant of claim 6 , further comprising a CO 2 outlet valve arranged downstream of the pump and configured to withdraw and output a portion of the high pressure stream comprising CO 2 output from the pump. 9. The power production plant of claim 8 , wherein the pump controller is configured to control one or both of mass flow through the turbine and an outlet temperature of the turbine by adjusting an amount of the high pressure stream comprising CO 2 that is output through the CO 2 outlet valve. 10. The power production plant of claim 1 , wherein the controller includes a pump suction pressure controller configured to receive an input related to suction pressure on a fluid upstream from the pump and to provide an output to a spillback valve that is positioned upstream from the pump. 11. The power production plant of claim 10 , wherein the pump suction pressure controller is configured to meet one or both of the following requirements: cause more of the fluid or less of the fluid to spill back to a point that is further upstream from the spillback valve; cause more of the fluid or less of the fluid to be removed from the power production plant upstream from the pump. 12. The power production plant of claim 1 , wherein the controller includes a side flow heat controller configured to receive an input related to a calculated mass flow requirement for a side flow of the high pressure stream comprising CO 2 output from the pump and to provide an output to a side flow valve to increase or decrease an amount of the high pressure stream comprising CO 2 in the side flow. 13. The power production plant of claim 12 , further comprising a heat exchanger arranged to add heat to the side flow of the high pressure stream comprising CO 2 output from the pump. 14. The power production plant of claim 13 , wherein a heated stream exiting the heat exchanger is added back to the high pressure stream comprising CO 2 downstream from a point at which the side flow is taken. 15. The power production plant of claim 1 , further comprising a recuperator heat exchanger arranged to withdraw heat from the low pressure stream comprising CO 2 output from the turbine and add heat to the high pressure stream comprising CO 2 output from the pump.