Rotary compressors with variable speed and volume control

What is claimed is: 1. A refrigeration system, comprising: a compressor comprising a compressor housing defining a suction port, a working chamber, and a discharge port, the compressor further comprising at least two rotors in the working chamber cooperatively arranged relative to one another to compress a fluid as the at least two rotors rotate relative to one another, the fluid being received into the working chamber through the suction port and being discharged from discharge ends of the rotors through the discharge port; a motor assembly including a motor operable to drive at least one of the at least two rotors at a rotational speed; a controller configured to receive operational parameters of the refrigeration system; and a volume control assembly at the discharge port of the compressor that is configured to receive a command signal from the controller and displace at least one volume control member relative to the discharge ends of the at least two rotors to vary a volume ratio of the compressor from a first condition to a second condition in response to operational parameters of the refrigeration system; wherein the volume control assembly includes a radial discharge port volume control assembly; and wherein the volume control assembly further includes an axial discharge port volume control assembly. 2. The system of claim 1 , wherein the rotational speed operates the at least one rotor at an optimum peripheral velocity that is independent of a peripheral velocity of the at least one rotor at a synchronous motor rotational speed for a rated capacity of the compressor. 3. The system of claim 1 , wherein the fluid is a refrigerant. 4. The system of claim 1 , wherein the motor comprises a permanent magnet motor. 5. The system of claim 1 , wherein the radial discharge port volume control assembly includes a slide valve movable axially along a periphery of the first and second rotors adjacent the discharge port to vary a radial discharge volume of the rotors at the discharge port. 6. The system of claim 1 , wherein the radial discharge port volume control assembly includes a valve movable radially toward and away from the first and second rotors adjacent the discharge port to vary a radial discharge volume of the rotors at the discharge port. 7. The system of claim 6 , wherein the valve is connected to an actuator assembly, the actuator assembly including a piston movably positioned in a chamber defined by the compressor housing, wherein the chamber is selectively in fluid communication with the discharge port and the suction port to vary a pressure on the piston to adjust a radial position of the valve relative to the rotors. 8. The system of claim 7 , further comprising a biasing member in the chamber engaged to the piston to bias the valve toward the working chamber. 9. The system of claim 1 , wherein the axial discharge port volume control assembly includes a first end plate rotatably mounted at the discharge end of the first rotor and a second end plate rotatably mounted at the discharge end of the second rotor, each of the first and second end plates defining a notched region corresponding to an axial end outlet of respective ones of the first and second rotors. 10. The system of claim 9 , wherein the first rotor includes a shaft extending through the first end plate and the second rotor includes a shaft extending through the second end plate. 11. The system of claim 9 , wherein the first and second end plates each include an attachment member, and the axial port volume control assembly includes an elongated shaft with first and second engaging members engaged to respective ones of the attachment members, wherein rotation of the elongated shaft rotates the first and second end plates between first and second positions. 12. The system of claim 1 , further comprising a variable speed drive connected to the motor, the variable speed drive being configured to receive a command signal from the controller and to generate a control signal that drives the motor at the rotational speed, wherein the variable speed drive is configured to vary the rotational speed of the motor in response to the command signal. 13. The system of claim 1 , wherein the volume control member is displaced transversely to a rotational axis of at least one of the at least two rotors. 14. A refrigeration system, comprising: a compressor comprising a compressor housing defining a suction port, a working chamber, and a discharge port, the compressor further comprising at least two rotors in the working chamber cooperatively arranged relative to one another to compress a fluid as the at least two rotors rotate relative to one another, the fluid being received into the working chamber through the suction port and being discharged from discharge ends of the rotors through the discharge port; a motor assembly including a motor operable to drive at least one of the at least two rotors at a rotational speed; a controller configured to receive operational parameters of the refrigeration system; and a radial discharge port volume control assembly at the discharge port of the compressor that is configured to receive a command signal from the controller and displace at least one volume control member relative to the discharge ends of the at least two rotors to vary a volume ratio of the compressor from a first condition to a second condition in response to operational parameters of the refrigeration system; wherein the radial discharge port volume control assembly includes a slide valve movable axially along a periphery of the first and second rotors adjacent the discharge port to vary a radial discharge volume of the rotors at the discharge port. 15. The system of claim 14 , further comprising a variable speed drive connected to the motor, the variable speed drive being configured to receive a command signal from the controller and to generate a control signal that drives the motor at the rotational speed, wherein the variable speed drive is configured to vary the rotational speed of the motor in response to the command signal. 16. A refrigeration system, comprising: a compressor comprising a compressor housing defining a suction port, a working chamber, and a discharge port, the compressor further comprising at least two rotors in the working chamber cooperatively arranged relative to one another to compress a fluid as the at least two rotors rotate relative to one another, the fluid being received into the working chamber through the suction port and being discharged from discharge ends of the rotors through the discharge port; a motor assembly including a motor operable to drive at least one of the at least two rotors at a rotational speed; a controller configured to receive operational parameters of the refrigeration system; an axial discharge port volume control assembly at the discharge port of the compressor that is configured to receive a command signal from the controller and displace at least one volume control member relative to the discharge ends of the at least two rotors to vary a volume ratio of the compressor from a first condition to a second condition in response to operational parameters of the refrigeration system; and a radial discharge port volume control assembly at the discharge port of the compressor that is configured to receive the command signal from the controller and displace at least one volume control member relative to the discharge ends of the at least two rotors to vary the volume ratio of the compressor from the first condition to the second condition in response to operational param