Control system for controlling a subsea gas compression system

The invention claimed is: 1. A subsea compression system including a compressor and an electric motor driving the compressor, the subsea compression system comprising: a control system comprising a topside control system and a subsea control system, wherein the subsea control system comprises: a plurality of process sensors configured to measure process parameters of the compression system; a control unit comprising control hardware, the control hardware configured to operate at least one of the plurality of process sensors; and a compressor controller embedded within a housing of an electric device, the compressor controller configured to generate control commands for controlling the electric motor and a valve based on measurements of the process parameters from the sensors, wherein the compressor controller comprises a surge control module that generates a control command for an anti-surge valve and an actuator control module that controls an actuator motor in response to the control command from the surge control module. 2. The compression system according to claim 1 , wherein the anti-surge valve is configured to prevent surge of the compressor, and the surge control module is configured to generate control commands for opening and closing of the anti-surge valve based on measurements of the process parameters in order to prevent surge of the compressor. 3. The compression system according to claim 1 , wherein the electric device is an anti-surge actuator or a variable speed drive. 4. The compression system according to claim 1 , wherein the electric device includes device hardware and software for influencing a part of the gas compression system, and the electric device is arranged to receive measurements from the process sensors, and wherein the electric device is any of: an actuator configured to control the position of the valve, a variable speed drive configured to control the speed of the motor driving the compressor by adjusting the frequency of the power supplied to the motor, a switchgear connected to the variable speed drive for turning on and off the variable speed drive, or an uninterruptible power supply for providing emergency power to the control system. 5. The compression system according to claim 4 , wherein the device hardware of the electric device comprises a processing unit, a sensor interface, and an output interface. 6. The compression system according to claim 5 , wherein the sensor interface of the electric device is connected to the process sensors, the compressor controller comprises one or more software control modules configured to generate the control commands, and the processing unit of the electric device is configured to execute the control modules of the compressor controller. 7. The compression system according to claim 4 , wherein the compressor controller comprises a motor control module configured to generate speed commands for the motor based on measurements of the process parameters. 8. The compression system according to claim 7 , wherein the electric device is a variable speed drive controlling the speed of the motor driving the compressor by adjusting the frequency of the power supplied to the motor in response to speed commands from the motor control module, the variable speed drive comprises a sensor interface arranged to receive measurements from the process sensors, and the compressor controller is integrated in the variable speed drive. 9. The compression system according to claim 4 , wherein the electric device is an anti-surge actuator configured to actuate the anti-surge valve in response to the control commands from the surge control module, and the anti-surge actuator comprises a sensor interface arranged to receive measurements from the process sensors, and the compressor controller is integrated in the anti-surge actuator. 10. The compression system according to claim 4 , wherein the electric device is a switchgear connected to the variable speed drive for turning on and off the variable speed drive, and the compressor controller is integrated in the switchgear. 11. The compression system according to claim 4 , wherein the electric device is an uninterruptible power supply unit for providing emergency power to the control system, and the compressor controller is integrated in the uninterruptible power supply unit. 12. The compression system according to claim 1 , wherein the compressor controller is configured to receive remote control commands from the topside control system disposed above sea and follow the received remote control commands or to generate subsea control commands for controlling the electric motor and the valve based on measurements from the process sensors in absence of remote control commands from the topside control system. 13. A subsea gas compression system comprising: a compressor; an electric motor driving the compressor; at least one valve configured to control a flow through the compressor; and a control system configured to control the compressor, the control system comprising: a plurality of process sensors configured to measure process parameters of the compression system; a control unit comprising control hardware, the control hardware configured to operate at least one of the plurality of process sensors; and a compressor controller embedded within a housing of an electric device, the compressor controller configured to generate control commands for controlling the electric motor and a valve based on measurements of the process parameters from the sensors, wherein the compressor controller comprises a surge control module that generates a control command for an anti-surge valve and an actuator control module that controls an actuator motor in response to the control command from the surge control module. 14. The compression system according to claim 13 , wherein the electric device includes device hardware and software for influencing a part of the gas compression system, and the electric device is arranged to receive measurements from the process sensors, the device hardware of the electric device is utilized for storing and executing the compressor controller, and wherein the electric device is any of: an actuator configured to control the position of the valve, a variable speed drive configured to control the speed of the motor driving the compressor by adjusting the frequency of the power supplied to the motor, a switchgear connected to the variable speed drive for turning on and off the variable speed drive, or an uninterruptible power supply for providing emergency power to the control system. 15. The compression system according to claim 14 , wherein the compressor controller is configured to receive remote control commands from a topside control system disposed above sea and follow the received remote control commands or to generate subsea control commands for controlling the electric motor and the valve based on measurements from the process sensors in absence of remote control commands from the topside control system.