System and method for polymer extrusion

What is claimed is: 1. A polyolefin extrusion system, comprising: an extrusion gear pump to receive a narrow molecular weight distribution polyolefin from a polyolefin manufacturing system; a motor of the extrusion gear pump configured to drive the extrusion gear pump; a pressure sensor configured to generate a pressure signal indicative of a suction pressure into the extrusion gear pump; an automation controller configured to generate an output signal based on the pressure signal; a variable speed drive configured to control operation of the motor; a distributed control system (DCS) comprising a mismatch interlock module; and an additional pressure sensor to provide an additional pressure signal indicative of the suction pressure to the DCS, wherein the DCS is configured to compare the pressure signal and the additional pressure signal to control the mismatch interlock module. 2. The system of claim 1 , wherein the narrow molecular weight distribution polyolefin is at least partially melted, and has a polydispersity index between approximately 2 to approximately 4. 3. The system of claim 1 , wherein the automation controller is configured to receive the pressure signal as an analog input via a dedicated hardwire connection with the pressure sensor. 4. The system of claim 1 , wherein the variable speed drive is configured to utilize the output signal as a speed reference signal to control the motor. 5. The system of claim 1 , wherein the variable speed drive comprises a motor controller configured to utilize the output signal to control the motor. 6. The system of claim 5 , comprising a tachometer coupled to a shaft of the motor and configured to provide a motor speed as a feedback signal to the motor controller of the variable speed drive. 7. The system of claim 5 , wherein tuning parameters of the motor controller comprise a gain between approximately 3 to approximately 5 and an integral time between approximately 300 milliseconds to approximately 400 milliseconds, wherein the gain is expressed in units of amperage/motor speed or voltage/motor speed. 8. The system of claim 1 , wherein a scanning speed of the automation controller is less than approximately 20 milliseconds. 9. The system of claim 1 , comprising an additional automation controller configured to receive the pressure signal via a connection with the pressure sensor, wherein the additional automation controller utilizes the pressure signal as an input to a high suction pressure interlock module of the additional automation controller. 10. The system of claim 1 , comprising an additional automation controller configured to receive an electric current signal via a connection with the variable speed drive, wherein the additional automation controller utilizes the electric current signal as an input to a high electric current interlock module of the additional automation controller. 11. The system of claim 1 , wherein the automation controller comprises an input/output (I/O) connection with the DCS, the I/O connection being configured to transfer from the DCS to the automation controller a setpoint for the suction pressure, a manual output speed reference signal used to generate the output signal to the variable speed drive, a gear pump mode signal, or any combination thereof. 12. The system of claim 11 , wherein the automation controller and the DCS are configured to synchronize the setpoint, the manual output speed reference signal, and the gear pump mode signal during a mode change such that a variability of the suction pressure after the mode change is less than approximately 1 percent of a span of the pressure sensor. 13. The system of claim 1 , wherein the pressure sensor and the additional pressure sensor are each configured with an output damping of less than approximately 1 second. 14. The system of claim 1 , wherein tuning parameters of the automation controller comprise a gain of between approximately 0.4 to approximately 0.6 and an integral time between approximately 25 seconds to approximately 35 seconds, wherein the gain is expressed in units of inverse pressure. 15. The system of claim 1 , wherein the automation controller comprises adaptive tuning circuitry configured to automatically adjust one or more tuning parameters of the automation controller based on a disturbance in the suction pressure. 16. A polyolefin extrusion system, comprising: an extrusion gear pump; a motor of the extrusion gear pump configured to drive the extrusion gear pump; a pressure sensor configured to generate a pressure signal indicative of a suction pressure into the extrusion gear pump; a first automation controller configured to receive the pressure signal as an analog input via a dedicated hardwire connection with the pressure sensor and configured to generate an output signal based on the pressure signal and a suction pressure setpoint signal for the suction pressure; a second automation controller configured to receive the pressure signal via a direct connection with the pressure sensor, wherein the second automation controller utilizes the pressure signal as an input to a high suction pressure interlock module of the second automation controller; and a variable speed drive configured to control operation of the motor, wherein the variable speed drive is configured to utilize the output signal as a speed reference signal to control the motor. 17. The system of claim 16 , wherein the extrusion gear pump is to receive a narrow molecular weight distribution polyolefin from a polyolefin manufacturing system. 18. The system of claim 16 , comprising an additional pressure sensor configured to generate an additional pressure signal indicative of the suction pressure into the extrusion gear pump, wherein the additional pressure sensor is configured to provide the additional pressure signal to a distributed control system (DCS), wherein the DCS is configured to compare the pressure signal and the additional pressure signal to control a mismatch interlock module of the DCS. 19. The system of claim 16 , wherein a scanning speed of the first automation controller is less than approximately 20 milliseconds. 20. A polyolefin extrusion system, comprising: an extrusion gear pump to receive a narrow molecular weight distribution polyolefin from a polyolefin manufacturing system; a motor of the extrusion gear pump configured to drive the extrusion gear pump; a pressure sensor configured to generate a pressure signal indicative of a suction pressure into the extrusion gear pump; a variable speed drive configured to control operation of the motor; and an automation controller configured to generate an output signal based on the pressure signal, wherein the automation controller comprises an input/output (I/O) connection with a distributed control system (DCS), the I/O connection being configured to transfer from the DCS to the automation controller a setpoint for the suction pressure, a manual output speed reference signal used to generate the output signal to the variable speed drive, a gear pump mode signal, or any combination thereof, and the automation controller and the DCS are configured to synchronize the setpoint, the manual output speed reference signal, and the gear pump mode signal during a mode change, such that a variability of the suction pressure after the mode change is less than approximately 1 percent of a span of the pressure sensor.