Systems and methods to clamp an impeller to a compressor shaft

What is claimed is: 1. A system to clamp an impeller to a shaft in a refrigerant compressor in a heating, ventilation, and air conditioning (HVAC) system, the impeller being fitted onto the shaft, comprising: a relatively stiff support to support a front side of the impeller, the relatively stiff support configured to be fitted onto an outside surface of the shaft, the relatively stiff support including a locknut and a washer, the washer being disposed between the locknut and the front side of the impeller, the washer including an inner tab and an outer tab, the inner tab fits into a slot on the shaft and the outer tab is bent into a slot on the locknut; and a relatively flexible support to support a backside of the impeller, the relatively flexible support configured to be fitted onto the shaft and abut the backside of the impeller, wherein the front side of the impeller receives a flow of refrigerant gas in operation, and the backside of the impeller is opposite to the front side of the impeller, and the relatively stiff support is positioned to relieve at least a portion of a thrust load on the impeller during operation, the thrust load being in a direction from the backside of the impeller to the front side of the impeller. 2. The system of claim 1 , wherein the relatively flexible support includes a shim member, a spring member, and a spacing member; and the shim member is configured to be in contact with the backside of the impeller. 3. The system of claim 2 , wherein the spring member is a conical washer. 4. A refrigerant compressor in a heating, ventilation, and air conditioning (HVAC) system, comprising: a shaft; an impeller including a front side and a backside, the impeller being fitted onto the shaft, the front side of the impeller receiving a flow of refrigerant gas in operation, and the backside of the impeller being opposite to the front side of the impeller, a thrust load being in a direction from the backside of the impeller to the front side of the impeller; a relatively stiff support fitted onto an outside surface of the shaft on the front side of the impeller to support the front side of the impeller, the relatively stiff support positioned to relieve at least a portion of the thrust load, the relatively stiff support including a locknut and a washer, the washer being disposed between the locknut and the front side of the impeller, the washer including an inner tab and an outer tab, the inner tab fits into a slot on the shaft and the outer tab is bent into a slot on the locknut; and a relatively flexible support fitted onto the shaft and abutting the backside of the impeller to support the backside of the impeller. 5. The refrigerant compressor of claim 4 , wherein the relatively flexible support includes a shim member, a spring member, and a spacing member; and the shim member is configured to be in contact with the backside of the impeller. 6. The refrigerant compressor of claim 5 , wherein the spring member is a conical washer. 7. The refrigerant compressor of claim 4 , wherein the compressor is a multi-stage compressor and includes a plurality of impellers fitted onto the shaft, a plurality of relatively stiff supports, and a plurality of relatively flexible supports, two or more of the plurality of impellers each including one of the plurality of relatively stiff supports and one of the plurality of relatively flexible supports. 8. The compressor of claim 4 , wherein the impeller is fitted onto the shaft by one of a clearance fit, a transitional fit, and an interference fit. 9. A method of clamping an impeller to a shaft in a multi-stage compressor in a heating, ventilation, and air conditioning (HVAC) system, the compressor including a plurality of impellers arranged axially to be clamped to the shaft, the plurality of impellers being fitted onto the shaft, comprising: supporting, with a plurality of relatively stiff supports fitted onto an outside surface of the shaft, a front side of two or more of the plurality of impellers, the front side of the two or more impellers receiving a flow of refrigerant gas in operation, two or more of the plurality of impellers being supported by one of the plurality of relatively stiff supports, the plurality of relatively stiff supports including a locknut and a washer, the washer being disposed between the locknut and the front side of the two or more of the plurality of impellers, the washer including an inner tab and an outer tab, the inner tab fits into a slot on the shaft and the outer tab is bent into a slot on the locknut; and supporting, with a plurality of relatively flexible supports fitted onto the shaft, a backside of the two or more impellers, the plurality of relatively flexible supports abutting the backside of the two or more impellers, the backside of the two or more impellers being opposite the front side of the impeller, two or more of the plurality of impellers being supported by one of the plurality of relatively flexible supports, wherein the relatively stiff supports are positioned to relieve at least a portion of the thrust load on the two or more impellers during operation of the compressor, the thrust load being in a direction from the backside of the two or more impellers to the front side of the two or more impellers. 10. The method of claim 9 , wherein the plurality of relatively flexible supports each include a shim member, a spring member, and a spacing member, and the shim member is configured to be in contact with the backsides of the two or more of the plurality of impellers. 11. The method of claim 10 , wherein the spring member is a conical washer. 12. The method of claim 9 , further comprising aligning each of the plurality of relatively stiff supports using an inner tab on the washer, the aligning including locating the inner tab of the washer with a keyway on the shaft.