Centrifugal compressor part load control algorithm for improved performance

The invention claimed is: 1. A method for controlling a centrifugal compressor having adjustable guide vanes and a variable diffuser, comprising the steps of: storing a predetermined profile for optimized diffuser position and reference lift with respect to guide vane position at a part load and a full load on a controller of the centrifugal compressor; accessing the stored predetermined profile on the controller of the centrifugal compressor; identifying actual lift of the centrifugal compressor; identifying an actual guide vane position of the centrifugal compressor; correlating a relationship between diffuser position and reference lift from the predetermined profile based on the actual guide vane position; calculating a new diffuser position based on the actual lift, actual guide vane position and the relationship between diffuser position and reference lift from the predetermined profile; retrieving a full load reference lift from the predetermined profile based on the actual guide vane position and a fully opened diffuser; adjusting the diffuser to the fully opened position if the actual lift is less than or equal to the full load reference lift; and adjusting the diffuser to the new diffuser position if the actual lift is greater than the full load reference lift. 2. The method of claim 1 , wherein the relationship between diffuser position and the reference lift from the predetermined profile includes part and full load characteristics. 3. The method of claim 2 , wherein the part load relationship between diffuser position and the reference lift from the predetermined profile is based on data per a 0.5 degree turndown load line corresponding to a 0.5 degree reduction in entering condenser water temperature for every 10% change in load. 4. The method of claim 1 , wherein the new diffuser position is based on a linear interpolation of the actual lift, actual guide vane position and the relationship between diffuser position and reference lift from the predetermined profile. 5. The method of claim 1 , wherein the diffuser position at full load is a constant value corresponding to a fully opened diffuser position. 6. The method of claim 1 , wherein the relationship between diffuser position and the reference lift from the predetermined profile is adjusted with at least one safety factor. 7. The method of claim 1 , wherein the relationship between diffuser position and the reference lift from the predetermined profile is adjusted according to load lines corresponding to at least one regional geographic location. 8. The method of claim 1 further comprising a step of signaling an actuator to adjust the diffuser to a closed position if a surge is detected. 9. A method for controlling a centrifugal compressor having adjustable guide vanes and a variable diffuser after compressor startup, comprising the steps of: storing a predetermined profile for optimized diffuser position and reference lift with respect to guide vane position at a part load and a full load on a controller of the centrifugal compressor; accessing the stored predetermined profile on the controller of the centrifugal compressor; correlating a first relationship between a current guide vane position and a full load reference lift from the predetermined profile; identifying an actual lift of the centrifugal compressor; adjusting the diffuser to a fully opened position if the actual lift is less than the full load reference lift; correlating a second relationship between the current guide vane position and diffuser position at part load; correlating a third relationship between the current guide vane position and a part load reference lift from the predetermined profile; correlating a fourth relationship between diffuser position and a reference lift from the predetermined profile based on the second and third relationships; calculating a new diffuser position based on the fourth relationship; and adjusting the diffuser to the new diffuser position. 10. A method for controlling a centrifugal compressor having adjustable guide vanes and a variable diffuser, comprising the steps of: storing a predetermined profile for optimized diffuser position and optimized lift with respect to guide vane position at a part load and a full load on a controller of the centrifugal compressor; accessing the stored predetermined profile on the controller of the centrifugal compressor: identifying an actual guide vane position of the centrifugal compressor; correlating a first relationship between the actual guide vane position and diffuser position; calculating a first diffuser position based on the first relationship; adjusting the diffuser to the first diffuser position if the centrifugal compressor is in a startup state; correlating a second relationship between the actual guide vane position and full load reference lift from the predetermined profile; retrieving full load reference lift from the predetermined profile based on the second relationship and the actual guide vane position; identifying an actual lift of the centrifugal compressor; adjusting the diffuser to a fully opened position if the actual lift is less than the full load reference lift; determining a third relationship between the actual guide vane position and diffuser position at part load; correlating a fourth relationship between the actual guide vane position and a part load reference lift from the predetermined profile; correlating a fifth relationship between diffuser position and a reference lift from the predetermined profile based on the third and fourth relationships; calculating a second diffuser position based on the fifth relationship; and adjusting the diffuser to the second suggested diffuser position if the centrifugal compressor is in a normally operating state. 11. The method of claim 10 , wherein the fifth relationship is a linear interpolation of the actual lift, the actual guide vane position and the fifth relationship. 12. The method of claim 10 , wherein the diffuser position at full load is a constant value corresponding to a fully opened diffuser position. 13. The method of claim 10 , wherein part load relationships are based on data per a 0.5 degree turndown load line corresponding to a 0.5 degree reduction in entering condenser water temperature for every 10% change in load. 14. The method of claim 10 , wherein each of the second and fourth relationships is adjusted with at least one safety factor. 15. The method of claim 14 , wherein the at least one safety factor is adjustable through an interface of the compressor by a user. 16. The method of claim 10 , wherein the startup state corresponds to compressor runtime of ten minutes or less and the normally operating state corresponds to runtime exceeding ten minutes. 17. The method of claim 10 , wherein the diffuser is adjusted to a fully closed position for at least one surge period in an event of a surge. 18. The method of claim 17 , wherein the surge period is approximately five seconds. 19. The method of claim 17 , wherein a surge counter is incremented for each surge event and decremented at the end of each surge period if no additional surge events are detected. 20. The method of claim 10 , wherein the diffuser is adjusted according to additional load lines corresponding to one or more geographical region.