System and method for operation of variable geometry diffuser as check valve

The invention claimed is: 1. A compressor, comprising: a diffuser passage configured to receive refrigerant flow from an impeller of the compressor, wherein the diffuser passage is at least partially defined by a compressor discharge plate of the compressor; a variable geometry diffuser positioned within the diffuser passage and configured to adjust a dimension of a refrigerant flow path through the diffuser passage; an actuator coupled to the variable geometry diffuser and configured to adjust a position of the variable geometry diffuser within the diffuser passage; and a controller configured to regulate operation of the actuator, wherein the controller is configured to instruct the actuator to adjust the position of the variable geometry diffuser from a first position to a second position using a first force and to adjust the position of the variable geometry diffuser from the second position to a third position using a second force less than the first force, wherein the variable geometry diffuser abuts the compressor discharge plate in the third position. 2. The compressor of claim 1 , wherein the controller is configured to instruct the actuator to adjust the position of the variable geometry diffuser across a range of variable geometry diffuser positions within the diffuser passage using the first force, and the first position is within the range of variable geometry diffuser positions. 3. The compressor of claim 2 , wherein the controller is configured to instruct the actuator to adjust the position of the variable geometry diffuser across the range of variable geometry diffuser positions during operation of the compressor. 4. The compressor of claim 1 , wherein the controller is configured to instruct the actuator to adjust the position of the variable geometry diffuser from the second position to the third position using the second force based on a signal indicative of compressor shutdown received by the controller. 5. The compressor of claim 1 , wherein the actuator comprises a sensor configured to provide feedback to the controller indicative of the variable geometry diffuser in the third position. 6. The compressor of claim 5 , wherein the actuator is a motor, and the sensor is a torque sensor configured to detect a torque acting on the motor. 7. The compressor of claim 1 , wherein the variable geometry diffuser is configured to completely block refrigerant flow through the compressor in the third position. 8. The compressor of claim 1 , wherein the dimension of the refrigerant flow path through the diffuser passage with the variable geometry diffuser in the second position corresponds to a lower threshold dimension of the refrigerant flow path during operation of the compressor. 9. The compressor of claim 1 , wherein the variable geometry diffuser is a variable geometry diffuser ring. 10. The compressor of claim 1 , wherein the actuator comprises a locking system configured to maintain the variable geometry diffuser in the third position during suspended operation of the compressor. 11. A heating, ventilation, air conditioning, and refrigeration (HVAC&R) system, comprising; a compressor configured to pressurize refrigerant within a refrigerant circuit, wherein the compressor comprises a diffuser passage configured to receive the refrigerant from an impeller of the compressor; a variable geometry diffuser of the compressor, wherein the variable geometry diffuser is configured to be positioned within the diffuser passage and is configured to adjust a dimension of a refrigerant flow path through the diffuser passage; an actuator configured to adjust a position of the variable geometry diffuser within the diffuser passage; and a controller configured to regulate operation of the actuator, wherein the controller is configured to reduce a first force applied by the actuator, prior to contact between the variable geometry diffuser and a compressor discharge plate, to position the variable geometry diffuser against the compressor discharge plate during stoppage of the compressor. 12. The HVAC&R system of claim 11 , wherein the controller is configured to instruct the actuator to position the variable geometry diffuser against the compressor discharge plate based on an indication of compressor shutdown or compressor fault received by the controller. 13. The HVAC&R system of claim 11 , wherein the controller is configured to instruct the actuator to position the variable geometry diffuser within a first range of positions within the diffuser passage during operation of the compressor and is configured to instruct the actuator to position the variable geometry diffuser within a second range of positions within the diffuser passage during stoppage of the compressor. 14. The HVAC&R system of claim 13 , wherein the first range of positions and the second range of positions do not overlap with one another. 15. The HVAC&R system of claim 13 , wherein the controller is configured to instruct the actuator to position the variable geometry diffuser within the first range of positions within the diffuser passage to control surge of the compressor and/or control a capacity of the compressor. 16. The HVAC&R system of claim 13 , wherein the controller is configured to instruct the actuator to position the variable geometry diffuser within the first range of positions using the first force, the controller is configured to instruct the actuator to position the variable geometry diffuser within the second range of positions using a second force, and the second force is less than the first force. 17. The HVAC&R system of claim 11 , comprising a first refrigerant circuit and a second refrigerant circuit, wherein the first refrigerant circuit comprises the compressor, the first refrigerant circuit and the second refrigerant circuit are each configured to exchange heat with a flow of cooling fluid, the first refrigerant circuit and the second refrigerant circuit are each configured to exchange heat with a flow of conditioning fluid, and the first refrigerant circuit and the second refrigerant circuit are arranged in a series counter-flow configuration relative to the flow of cooling fluid and the flow of conditioning fluid. 18. A heating, ventilation, air conditioning and refrigeration (HVAC&R) system controller comprising a tangible, non-transitory, computer-readable medium comprising computer-executable instructions that, when executed, are configured to cause processing circuitry to: control an actuator to position a variable geometry diffuser in a diffuser passage of a compressor within a first range of positions during operation of the compressor; control the actuator to position the variable geometry diffuser in the diffuser passage of the compressor within a second range of positions during stoppage of the compressor; control the actuator to maintain a position of the variable geometry diffuser within the diffuser passage and against a compressor discharge plate of the compressor during stoppage of the compressor; receive feedback from a sensor indicative of a torque acting on the actuator; and control the actuator to position the variable geometry diffuser against the compressor discharge plate of the compressor based on the feedback. 19. The HVAC&R system controller of claim 18 , wherein the computer-executable instructions, when executed, are configured to cause the processing circuitry to: control the actuator to apply a first force to the variable geometry diffuser to position the variable geometry diffuser in the diffuser passage of the com