Variable volume screw compressors using proportional valve control

What is claimed is: 1. A positive displacement, variable-efficiency screw compressor, comprising: an inlet port drawing refrigerant gas into the screw compressor at a suction volume; at least one rotating screw in fluid communication with the inlet port to compress the refrigerant gas; a discharge port in fluid communication with the at least one rotating screw to receive and discharge the compressed refrigerant gas at a discharge volume; a piston positioned within the discharge port, the piston movable from a first position in which the discharge volume of the discharge port is extended to a second position in which the discharge volume of the discharge port is contracted, and to intermediate positions, at which the discharge volume of the discharge port is intermediate between the extended discharge volume and the contracted discharge volume; wherein the piston is arranged and disposed within the discharge port, adjusting discharge volume of the discharge port and a volume ratio of the suction volume to the discharge volume in response to a change in system volume ratio; a biasing member attached to a first side of the piston; and a proportional valve in fluid communication with the discharge port on the first side of the piston, wherein the proportional valve is configured to supply fluid pressure to the piston to counter balance the biasing force from the biasing member, and wherein the proportional valve is configured to adjust the fluid pressure applied to the piston based at least on an operating parameter of the compressor to move the piston within the discharge port and provide the discharge port with a predetermined discharge volume. 2. The screw compressor of claim 1 wherein the biasing member is a spring attached to the piston on a side of the piston opposite discharge of refrigerant gas from the at least one rotating screw. 3. The screw compressor of claim 1 wherein the operating parameter of the compressor includes at least one of a reference refrigerant pressure and a reference oil pressure. 4. The screw compressor of claim 1 , wherein the suction volume is substantially constant during operation of the compressor. 5. A variable-efficiency refrigeration system, comprising a positive displacement compressor having a working volume and at least one screw for compressing a refrigerant gas; a power source powering the compressor; a control panel modulating the power source; a condenser in fluid communication with the compressor condensing the compressed refrigerant gas to a compressed liquid; an evaporator in fluid communication with the condenser and with the compressor; an expansion valve positioned between the condenser and the evaporator, the expansion valve receiving compressed refrigerant liquid and expanding the compressed refrigerant liquid, forming a mist of gas and liquid; and wherein the compressor is a variable-efficiency screw compressor, further comprising: an inlet port drawing refrigerant gas into the screw compressor at a suction volume; at least one rotating screw in fluid communication with the inlet port to compress the refrigerant gas; a discharge port in fluid communication with the at least one rotating screw to receive and discharge the compressed refrigerant gas at a discharge volume; a piston positioned within the discharge port, the piston movable from a first position in which the discharge volume of the discharge port is extended to a second position in which the discharge volume of the discharge port is contracted, and to intermediate positions, at which the discharge volume of the discharge port is intermediate between the extended discharge volume and the contracted discharge volume; wherein the piston is arranged and disposed within the discharge port, adjusting discharge volume of the discharge port and a volume ratio of the suction volume to the discharge volume in response to a change in system volume ratio; a biasing member attached to a first side of the piston; and a proportional valve in fluid communication with the discharge port on the first side of the piston, wherein the proportional valve is configured to supply fluid pressure to the piston to counter balance the biasing force from the biasing member, and wherein the proportional valve is configured to adjust the fluid pressure applied to the piston based at least on an operating parameter of the compressor to move the piston within the discharge port and provide the discharge port with a predetermined discharge volume. 6. The refrigeration system of claim 5 , further including water in heat exchange communication with the evaporator, the water being cooled by the evaporator and provided to a chiller wherein the chilled water from the chiller can be used to cool a remote area. 7. The refrigeration system of claim 5 , further including a heat transfer medium in heat exchange communication with the evaporator, wherein the heat transfer medium cooled by the evaporator, cools an immediate area. 8. The refrigeration system of claim 5 , wherein the refrigeration system is a closed loop system. 9. The refrigeration system of claim 5 , wherein the suction volume is substantially constant during operation of the compressor. 10. A variable-efficiency screw compressor system, comprising: an inlet port to draw refrigerant into the variable-efficiency screw compressor at a suction volume; one or more rotating screws in fluid communication with the inlet port to compress the refrigerant, forming a compressed refrigerant; a discharge port in fluid communication with the rotating screws to receive the compressed refrigerant and discharge the refrigerant at a discharge volume; wherein the discharge port includes an adjustable piston movable to any position between a first position and a second position to provide an intermediate volume to adjust the discharge volume and a volume ratio of the suction volume to the discharge volume in response to a change in system volume ratio; a proportional valve in fluid communication with the discharge port on a first side of the piston attached to the biasing member, wherein the proportional valve is configured to supply fluid pressure to the piston to counter balance the biasing force from the biasing member, and wherein the proportional valve is configured to adjust the fluid pressure applied to the piston based at least on an operating parameter of the compressor to move the piston within the discharge port and provide the discharge port with a predetermined discharge volume. 11. The screw compressor system of claim 10 , wherein efficiency of the compressor is substantially determined by the position of the adjustable piston in the discharge port. 12. The screw compressor system of claim 10 , wherein the volume ratio is adjustable to increase efficiency based on environmental temperatures of a geographic area in which the variable-efficiency screw compressor will be used. 13. The screw compressor system of claim 10 , wherein the suction volume is substantially constant during operation of the screw compressor system. 14. A method for adjusting a volume ratio of a screw compressor in response to a change in system volume ratio, comprising the steps of: providing a screw compressor, the screw compressor including: an inlet port drawing refrigerant gas into the screw compressor at a suction volume, at least one rotating screw in fluid communication with the inlet port to compress the refrigerant gas, a discharge port in fluid communication with the at least one rotating screw to receive and discharge the compressed refrigerant gas at a discharge volume, a piston positioned withi