Thrust bearings for centrifugal pumps

The invention claimed is: 1. A pump comprising: a casing having an inlet for receiving a fluid at a first end and an outlet for discharging the fluid at a second end at a higher pressure; a shaft within the casing rotatable about an axis and moveable along an axial direction; a plurality of impeller stages, each impeller stage comprising an impeller coupled to rotate with the shaft and a diffuser held stationary within the casing; a bearing assembly within the casing, the bearing assembly comprising: one or more annular elements coupled to rotate with the shaft, one or more bearing housings coupled to the casing: a plurality of first thrust pads coupled to one of the bearing housings and facing toward the first end of the casing positioned to bear against at least one of the one or more annular elements when the shaft moves along the axial direction from the first end toward the second end; a plurality of second thrust pads coupled to one of the bearing housings and facing toward the second end of the casing positioned to bear against at least one of the one or more annular elements when the shaft moves along the axial direction from the second end toward the first end; and, a plurality of ports through the one or more bearing housings providing flow paths for some of the fluid within the casing to pass through the one or more bearing housings and lubrication paths directing some of the fluid within the casing toward interfaces between the first thrust pads and the at least one of the one or more annular elements that bear against the first thrust pads and between the second thrust pads and the at least one of the one or more annular elements that bear against the second thrust pads. 2. The pump of claim 1 wherein: the one or more annular elements comprise a thrust collar coupled to rotate with the shaft; the one or more bearing housings are located between adjacent impeller stages of the pump, and comprise a first side towards the first end of the casing and a second side toward the second end of the pump casing, and define a central cavity for receiving the thrust collar; and, the plurality of ports comprise a plurality of flow ports arranged around a radial periphery of the central cavity, each of the flow ports providing communication of the fluid between the first side of the one or more bearing housings and the second side of the one or more bearing housings, and, a plurality of first side lubrication ports and second side lubrication ports each having an associated flow port, each first side lubrication port extending from the associated flow port toward the central cavity from the first side and each second side lubrication port extending from the associated flow port toward the central cavity from the second side. 3. The pump of claim 2 wherein the bearing assembly is symmetric about a plane of symmetry perpendicular to an axis of rotation of the thrust collar. 4. The pump of claim 2 wherein the first side and the second side of the one or more bearing housings are constructed in two separate portions. 5. The pump of claim 2 wherein one of the lubrication ports and an associated lubrication nozzle is located between each pair of adjacent thrust pads. 6. The pump of claim 2 wherein each of the flow ports has one of the first side lubrication ports extending from a first end thereof to the central cavity and one of the second side lubrication ports extending from a second end thereof to the central cavity. 7. The pump of claim 2 wherein the one or more bearing housings define an annular cavity positioned around the radial periphery of the central cavity, the annular cavity providing fluid communication between the plurality of flow ports and the central cavity. 8. The pump of claim 1 wherein the bearing assembly is positioned between a last impeller stage closest to the outlet and a next to last impeller stage.