Load sharing control for compressors in series

The invention claimed is: 1. A compressor system comprising: a compressor train including two or more compressors connected in series; a primary control mechanism being controlled by a primary performance controller; and a secondary control mechanism being controlled by a secondary performance controller, the secondary performance controller being operable to: identify a process variable of the secondary performance controller, wherein the process variable of the secondary performance controller comprises a pressure between the primary control mechanism and the secondary control mechanism; receive, on a recurrent basis from a load sharing controller, a setpoint for the process variable of the secondary performance controller, wherein the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on a load sharing parameter associated with the two or more compressors; and control the secondary control mechanism based on the setpoint and the process variable of the secondary performance controller to operate consistently with the primary control mechanism in response to a change in a process variable or a setpoint of the primary control mechanism. 2. The compressor system of claim 1 , wherein the secondary control mechanism comprises one or more of a control valve, a speed governor, or an inlet guide vane. 3. The compressor system of claim 1 , wherein the compressor train further comprises a pressure transducer, and the secondary performance controller is operable to identify pressure measured by the pressure transducer as the process variable of the secondary performance controller. 4. The compressor system of claim 1 , wherein the load sharing parameter is one of a distance from surge, a pressure ratio, a motor current, or a turbine steam consumption. 5. The compressor system of claim 1 , wherein the secondary performance controller is configured to control the secondary control mechanism to move in the same direction as the primary control mechanism when responding to the change in the process variable or the setpoint of the primary control mechanism. 6. The compressor system of claim 1 , wherein the compressor train is a first compressor train, further comprising one or more additional compressor trains, the one or more additional compressor trains and the first compressor train being connected in parallel, wherein the primary control mechanism of the first compressor train is subject to parallel load sharing among the first compressor train and the one or more additional compressor trains. 7. The compressor system of claim 1 , wherein the primary control mechanism comprises one or more of a control valve, a speed governor, or an inlet guide vane. 8. The compressor system of claim 1 , wherein the load sharing parameter is a distance from surge, and the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on the load sharing parameter associated with the two or more compressors to maintain the two or more compressors at an equal distance from surge. 9. The compressor system of claim 1 , wherein the load sharing parameter is a ratio of pressure ratios of the two or more compressors, and the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on the load sharing parameter associated with the two or more compressors to achieve a target ratio of the pressure ratios of the two or more compressors. 10. The compressor system of claim 9 , wherein the target ratio of the pressure ratios of the two or more compressors represents a balanced load distribution between two or more compressors. 11. A controller operable to control a secondary control mechanism of a control system, the control system further comprising a primary control mechanism controlled by a primary performance controller and a compressor train including two or more compressors connected in series, the controller operable to: identify a process variable of the controller, wherein the process variable of the controller comprises a pressure between the primary control mechanism and the secondary control mechanism; receive, on a recurrent basis from a load sharing controller, a setpoint for the process variable of the controller, wherein the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on a load sharing parameter associated with the two or more compressors; and control the secondary control mechanism based on the setpoint and the process variable of the controller to operate consistently with the primary control mechanism in response to a change in a process variable or a setpoint of the primary control mechanism. 12. The controller of claim 11 , wherein the secondary control mechanism comprises one or more of a control valve, a speed governor, or an inlet guide vane. 13. The controller of claim 11 , wherein the primary control mechanism comprises one or more of a control valve, a speed governor, or an inlet guide vane. 14. The controller of claim 11 , wherein the compressor train further comprises a pressure transducer, and the secondary performance controller is operable to identify pressure measured by the pressure transducer as the process variable of the secondary performance controller. 15. The controller of claim 11 , wherein the load sharing parameter is one of a distance from surge, a pressure ratio, a motor current, or a turbine steam consumption. 16. The controller of claim 11 , wherein the compressor train is a first compressor train, further comprising one or more additional compressor trains, the one or more additional compressor trains and the first compressor train being connected in parallel, wherein the primary control mechanism of the first compressor train is subject to parallel load sharing among the first compressor train and the one or more additional compressor trains. 17. The controller of claim 11 , wherein the controller is configured to control the secondary control mechanism to move in the same direction as the primary control mechanism when responding to the change in the process variable or the setpoint of the primary control mechanism. 18. The controller of claim 11 , wherein the load sharing parameter is a distance from surge, and the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on the load sharing parameter associated with the two or more compressors to maintain the two or more compressors at an equal distance from surge. 19. The controller of claim 11 , wherein the load sharing parameter is a ratio of pressure ratios of the two or more compressors, and the setpoint is determined dynamically during operation of the two or more compressors by the load sharing controller based on the load sharing parameter associated with the two or more compressors to achieve a target ratio of the pressure ratios of the two or more compressors. 20. The controller of claim 19 , wherein the target ratio of the pressure ratios of the two or more compressors represents a balanced load distribution between two or more compressors.