Rotary screw compressors utilizing viscous damping for vibration reduction

What is claimed is: 1. A system for damping vibrations in a screw compressor, comprising: a compressor housing; at least one rotor further comprising a helical screw mounted in the compressor housing, the at least one rotor having a shaft with a first axial end and a second axial end; radial bearings positioned near each end of the shaft, the radial bearings precisely positioning the at least one rotor in the compressor housing in a radial direction within a first predetermined clearance range; a stationary squeeze film damper positioned in parallel to each of the radial bearings and adjacent the radial bearings, the stationary squeeze film damper having a second predetermined clearance range greater than the first predetermined clearance range of the radial bearings with the at least one rotor; a damper bearing of the stationary squeeze film damper, wherein the damper bearing is selected from the group of bearings consisting of hydrodynamic bearings and anti-friction bearings, the damper bearing transferring radial movement of the shaft to the stationary squeeze film damper; at least one thrust bearing mounted on the shaft of the at least one rotor, the at least one thrust bearing counteracting axial forces on the at least one rotor; a lubricant source; a conduit from the lubricant source to the stationary squeeze film damper providing lubricant from the lubricant source to the stationary squeeze film damper; at least one of a cooler and a pressure pump downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to a flow of the lubricant from the lubricant source to the stationary squeeze film damper, wherein the lubricant provided from the lubricant source is maintained below its bubble point; wherein the lubricant provided to the stationary squeeze film damper provides a viscous damping of periodic radial motion of the at least one rotor, the lubricant occupying the second predetermined clearance range within the stationary squeeze film damper between the at least one rotor and a wall of the stationary squeeze film damper. 2. The system of claim 1 wherein the radial bearings are positioned between the first axial end of the shaft and the stationary squeeze film damper. 3. The system of claim 1 wherein the radial bearings are anti-friction bearings. 4. The system of claim 1 wherein the lubricant source is a screw compressor oil separator. 5. The system of claim 4 wherein the lubricant is compressor lubricant. 6. The system of claim 1 wherein the lubricant and the lubricant source are a closed system in series with the stationary squeeze film damper, the lubricant source dedicated to supplying lubricant to the stationary squeeze film damper. 7. The system of claim 1 including a plurality of stationary squeeze film dampers, the plurality of stationary squeeze film dampers located on both the first axial end and the second axial end of the at least one rotor. 8. The system of claim 1 further including a refrigerant, wherein the refrigerant is soluble in the lubricant. 9. The system of claim 8 wherein the lubricant is a polyolester oil and the refrigerant is a hydrofluorocarbon (HFC) fluid. 10. The system of claim 9 wherein the HFC refrigerant is R-134a refrigerant. 11. The system of claim 1 wherein the cooler positioned downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to the flow of the lubricant from the lubricant source to the stationary squeeze film damper provides lubricant to the stationary squeeze film damper at a temperature below a bubble point temperature, at which refrigerant remains in solution in the lubricant, minimizing formation of bubbles. 12. The system of claim 1 wherein the pressure pump, positioned downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to the flow of lubricant from the lubricant source to the stationary squeeze film damper, provides lubricant to the stationary squeeze film damper at a pressure above a bubble point pressure, at which refrigerant remains in solution in the lubricant, minimizing formation of bubbles. 13. The system of claim 1 including both the cooler positioned downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to the flow of lubricant from the lubricant source to the stationary squeeze film damper and the pressure pump positioned downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to the flow of lubricant from the lubricant source to the stationary squeeze film damper, the pressure pump and the cooler providing lubricant to the stationary squeeze film damper at a temperature below a bubble point temperature and a pressure above a bubble point pressure. 14. The system of claim 1 wherein the second predetermined clearance range of the stationary squeeze film damper is greater than the first predetermined clearance range of an adjacent radial bearing and sufficient to dampen a radial movement of the at least one rotor while preventing damage to the adjacent radial bearing. 15. The system of claim 14 wherein the second predetermined clearance range of the stationary squeeze film damper is in the range of 5%-50% greater than that of the first predetermined clearance range of the adjacent radial bearing with the at least one rotor. 16. The system of claim 1 further including a filter positioned downstream of the lubricant source and upstream of the stationary squeeze film damper with respect to the flow of lubricant from the lubricant source to the stationary squeeze film damper, the filter removing dirt, metal chips and debris in the lubricant before it is supplied to the stationary squeeze film damper. 17. The system of claim 1 wherein the stationary squeeze film damper supports no load during screw compressor operation. 18. The system of claim 1 further including a thrust bearing squeeze film damper positioned in parallel to the at least one thrust bearing to damp vibration of the shaft in the axial direction at the at least one thrust bearing. 19. A bearing system for supporting a rotor in a compressor, comprising: an anti-friction radial bearing having a first predetermined clearance range with the rotor; a squeeze film damper positioned in parallel to the anti-friction radial bearing along an axis of the rotor, the squeeze film damper having a second predetermined clearance with the rotor; wherein the second predetermined clearance of the squeeze film damper with the rotor is greater than the first predetermined clearance of the anti-friction radial bearing with the rotor; and wherein the squeeze film damper further includes a journal, a damper bearing, a lubricant source; a conduit providing lubricant from the lubricant source to the journal, and wherein the lubricant forms a thin film between the journal and a housing; and at least one of a cooler and a pressure pump downstream of the lubricant source and upstream of the squeeze film damper with respect to a flow of the lubricant from the lubricant source to the squeeze film damper along the conduit, wherein the lubricant provided from the lubricant source is maintained below its bubble point. 20. The bearing system of claim 19 wherein the squeeze film damper further includes seals retaining lubricant within the journal.