Impeller stack compression device and method

What is claimed is: 1. An apparatus for a centrifugal pump, the apparatus comprising: an annular retainer positionable around a first end portion of a pump shaft; and a compression cylinder comprising an internal cavity and an open end portion positionable around the first end portion of the pump shaft so that the pump shaft extends within the internal cavity; wherein, when the annular retainer is positioned around the first end portion of the pump shaft and the open end portion of the compression cylinder is positioned around the first end portion of the pump shaft so that the pump shaft extends within the internal cavity, the compression cylinder is movable towards an annular groove formed in the first end portion of the pump shaft to thereby spring the annular retainer into the annular groove. 2. The apparatus of claim 1 , wherein, when the compression cylinder moves towards the annular groove formed in the first end portion of the pump shaft to thereby spring the annular retainer into the annular groove, the open end portion of the compression cylinder is engageable with: one or more annular spacers extending around the pump shaft; or one or more impellers extending around the pump shaft. 3. The apparatus of claim 2 , further comprising the pump shaft, the one or more impellers, and the one or more annular spacers. 4. The apparatus of claim 2 , wherein the open end portion of the compression cylinder includes a counterbore in which the annular retainer is configured to extend when the open end portion of the compression cylinder engages the one or more annular spacers extending around the shaft or the one or more impellers extending around the shaft; and wherein the extension of the annular retainer within the counterbore prevents, or at least reduces, compression of the annular retainer between the open end portion of the compression cylinder and the one or more annular spacers extending around the shaft or the one or more impellers extending around the shaft, thereby allowing the annular retainer to spring into the annular groove. 5. The apparatus of claim 2 , wherein, when the annular retainer springs into the annular groove, the one or more impellers and the one or more annular spacers are constrained between the annular retainer and another annular retainer connected to the pump shaft. 6. The apparatus of claim 1 , further comprising a compression implement configured to move the compression cylinder towards the annular groove formed in the first end portion of the pump shaft. 7. The apparatus of claim 6 , wherein the compression implement comprises a threaded fastener configured to engage a threaded opening formed in the first end portion of the pump shaft. 8. A method for a centrifugal pump, the method comprising: positioning an annular retainer around a first end portion of a pump shaft; positioning an open end portion of a compression cylinder around the first end portion of the pump shaft so that the pump shaft extends within an internal cavity of the compression cylinder; moving the compression cylinder towards an annular groove formed in the first end portion of the pump shaft; and springing the annular retainer into the annular groove. 9. The method of claim 8 , wherein moving the compression cylinder towards the annular groove formed in the first end portion of the pump shaft comprises engaging the open end portion of the compression cylinder with: one or more annular spacers extending around the shaft; or one or more impellers extending around the shaft. 10. The method of claim 9 , wherein the open end portion of the compression cylinder includes a counterbore in which the annular retainer is configured to extend when the open end portion of the compression cylinder engages the one or more annular spacers extending around the shaft or the one or more impellers extending around the shaft. 11. The method of claim 10 , wherein the extension of the annular retainer within the counterbore prevents, or at least reduces, compression of the annular retainer between the open end portion of the compression cylinder and the one or more annular spacers extending around the shaft or the one or more impellers extending around the shaft, thereby allowing the annular retainer to spring into the annular groove. 12. The method of claim 9 , wherein springing the annular retainer into the annular groove constrains the one or more impellers and the one or more annular spacers between the annular retainer and another annular retainer connected to the pump shaft. 13. The method of claim 8 , wherein moving the compression cylinder towards the annular groove formed in the first end portion of the pump shaft comprises engaging a compression implement with the pump shaft. 14. The method of claim 13 , wherein the compression implement comprises a threaded fastener and engaging the compression implement with the pump shaft comprises engaging the threaded fastener with a threaded opening formed in the first end portion of the pump shaft. 15. An apparatus for a centrifugal pump, the apparatus comprising: a pump shaft defining opposing first and second end portions and having an annular groove formed in the first end portion; a first annular retainer connected to the pump shaft at the second end portion; one or more impellers extending around the pump shaft between the first annular retainer and the annular groove; one or more annular spacers extending around the pump shaft between the first annular retainer and the annular groove; and a second annular retainer extending within the annular groove; wherein the one or more impellers and the one or more annular spacers are constrained between the first annular retainer and the second annular retainer, wherein the second annular retainer extending within the annular groove defines a first outside diameter that is less than, or equal to, a second outside diameter of the one or more annular spacers. 16. The apparatus of claim 15 , wherein the one or more impellers comprise first and second impellers; and wherein the constraint of the first and second impellers and the one or more annular spacers between the first annular retainer and the second annular retainer maintains a spacing between the first and second impellers. 17. The apparatus of claim 15 , wherein the one or more impellers and the one or more annular spacers are compressed between the first annular retainer and the second annular retainer. 18. The apparatus of claim 15 , wherein the second annular retainer comprises a spiral retainer ring. 19. The apparatus of claim 15 , wherein the second annular retainer comprises multiple annular retainers extending within the annular groove.