Low charge packaged ammonia refrigeration system with evaporative condenser

The invention claimed is: 1. A refrigeration system comprising: a refrigerant evaporator coil, vapor/liquid separation structure connected to an outlet of said evaporator coil via refrigerant line configured to separate low pressure refrigerant vapor from low pressure refrigerant liquid; a refrigerant compressor connected to an outlet of said vapor liquid separation structure via refrigerant line and configured to compress refrigerant vapor from said vapor liquid separation structure; an evaporative refrigerant condenser connected to an outlet of said refrigerant compressor via refrigerant line and configured to condense refrigerant vapor produced in said compressor to refrigerant liquid, a high pressure-side expansion device connected to an outlet of said evaporative refrigerant condenser via refrigerant line and configured to reduce pressure of refrigerant liquid received from said evaporative refrigerant condenser; a collection vessel connected to an outlet of said high pressure-side expansion device via refrigerant line for receiving refrigerant liquid from said high pressure-side expansion device; a low pressure-side expansion device connected to an outlet of said collection vessel via refrigerant line and configured to reduce pressure of refrigerant liquid received from said collection vessel; refrigerant line connecting an outlet of said low pressure-side expansion device to an inlet of said vapor/liquid separation structure and configured to deliver refrigerant liquid to said separation structure; said vapor/liquid separation structure having a liquid outlet that is connected via refrigerant line to an inlet of said evaporator; wherein said vapor/liquid separation structure, said compressor, said high pressure side expansion device, said collection vessel, and said low pressure side expansion device are situated inside a plenum of said evaporative refrigerant condenser; and wherein said refrigerant is ammonia. 2. A refrigeration system according to claim 1 , which requires less than six pounds of refrigerant per ton of refrigeration capacity. 3. A refrigeration system according to claim 1 , wherein said evaporative condenser comprises a water distribution system located above a condenser coil, and said plenum is located beneath and adjacent to said condenser coil. 4. A refrigeration system according to claim 1 , wherein said vapor/liquid separation structure comprises a cyclonic separator. 5. A refrigeration system according to claim 1 , wherein said vapor/liquid separation structure comprises a recirculator vessel. 6. A refrigeration system according to claim 1 , wherein said collection vessel comprises a cyclonic separator. 7. A refrigeration system according to claim 1 , wherein said collection vessel comprises an economizer. 8. A refrigeration system according to claim 1 , wherein said condenser comprises a microchannel heat exchanger. 9. A refrigeration system according to claim 1 , further comprising a liquid to vapor mass ratio sensor situated inside refrigerant line connecting said evaporator coil and said vapor/liquid separation structure. 10. A refrigeration system according to claim 1 , further comprising a liquid to vapor mass ratio sensor situated inside refrigerant line connecting said vapor/liquid separation structure and said compressor. 11. A refrigeration system according to claim 1 , further comprising an oil separator vessel configured to separate compressor oil from refrigerant vapor received from said compressor. 12. A refrigeration system according to claim 1 , which requires less than four pounds of refrigerant per ton of refrigeration capacity. 13. A refrigeration system according to claim 1 , which requires less than two pounds of refrigerant per ton of refrigeration capacity. 14. A method for assembling a refrigeration system having a refrigerant evaporator coil, a liquid/vapor separator connected to an outlet of said evaporator coil via refrigerant line configured to separate low pressure refrigerant vapor from low pressure refrigerant liquid, a refrigerant compressor connected to an outlet of said liquid/vapor separator via refrigerant line and configured to compress refrigerant vapor from said liquid/vapor separator, an evaporative refrigerant condenser connected to an outlet of said refrigerant compressor via refrigerant line and configured to condense refrigerant vapor produced in said compressor to refrigerant liquid, a high pressure-side expansion device connected to an outlet of said evaporative refrigerant condenser via refrigerant line and configured to reduce pressure of refrigerant liquid received from said evaporative refrigerant condenser, a collection vessel connected to an outlet of said high pressure-side expansion device via refrigerant line for receiving refrigerant liquid from said high pressure-side expansion device, a low pressure-side expansion device connected to an outlet of said collection vessel via refrigerant line and configured to reduce pressure of refrigerant liquid received from said collection vessel, and said method comprising packaging said refrigerant compressor, said vapor/liquid separator, said high pressure-side expansion device, said collection vessel, and said low pressure-side expansion device in a plenum of said evaporative refrigerant condenser, connecting said refrigerant evaporator coil to said evaporative refrigerant condenser via refrigerant line, and filling said refrigerant system with ammonia refrigerant. 15. A method according to claim 14 , wherein said refrigerant evaporator coil is mounted in a modular evaporator room. 16. A method according to claim 15 , wherein said modular evaporator room is installed adjacent to said evaporative refrigerant condenser. 17. A method according to claim 14 , wherein said refrigerant evaporator coil is mounted in a refrigerated space directly beneath said evaporative refrigerant condenser.