Direct expansion evaporator with vapor ejector capacity boost

The invention claimed is: 1. An apparatus for improving the performance of a direct expansion refrigeration system, the apparatus comprising: an inlet separator adapted to be connected to an expansion device outlet of said direct expansion refrigeration system, an evaporator having an evaporator inlet directly connected to a liquid outlet of said inlet separator, an ejector having an ejector inlet directly connected to a vapor outlet of said inlet separator, an evaporator outlet refrigerant line connected at a first end to an outlet of said evaporator, said evaporator outlet refrigerant line bifurcating into an evaporator outlet liquid refrigerant line and an evaporator outlet vapor refrigerant line, said evaporator outlet liquid refrigerant line connected to a liquid inlet of said ejector, said evaporator outlet vapor refrigerant line connected to a compressor, said inlet separator configured to simultaneously and continuously deliver refrigerant vapor to said ejector and refrigerant liquid to said evaporator. 2. A direct expansion refrigeration system according to claim 1 , wherein said inlet separator and said ejector are combined in an integrated refrigerant recycling device. 3. An apparatus according to claim 1 , wherein said evaporator outlet vapor refrigerant line is connected to said compressor via a suction trap. 4. An apparatus according to claim 1 , wherein said evaporator inlet is a distributor or liquid header. 5. An apparatus according to claim 1 , wherein said inlet separator is configured to simultaneously and continuously deliver refrigerant vapor directly to said ejector and refrigerant liquid directly to said evaporator via the evaporator inlet. 6. A direct expansion refrigeration system comprising: a refrigerant line connecting the following, in order of refrigerant flow: an expansion device, an inlet separator, an ejector; an evaporator, and a compressor, said inlet separator configured to simultaneously and continuously i) deliver refrigerant vapor to said ejector and ii) deliver refrigerant liquid directly to an inlet of said evaporator. 7. A direct expansion refrigeration system according to claim 6 , wherein said inlet separator and said ejector are combined in an integrated refrigerant recycling device. 8. A direct expansion refrigeration system of claim 6 , further comprising a heat exchanger connected to said expansion device to deliver cooled refrigerant to said expansion device. 9. A method for increasing the refrigeration capacity of a direct expansion refrigeration system without risking liquid refrigerant damage to a compressor comprising the following steps, simultaneously: taking liquid from an outlet of an evaporator and delivering it directly to an ejector, taking refrigerant vapor from an inlet separator located immediately upstream of both said evaporator and said ejector and delivering it to said ejector, using said ejector to warm said refrigerant liquid received from said evaporator with said vapor received from said inlet separator, and taking all liquid from said ejector and delivering it directly to an inlet of said evaporator. 10. A method according to claim 9 , further comprising taking refrigerant liquid from said inlet separator and delivering it directly to a distributor for said evaporator. 11. A method according to claim 9 , further comprising taking refrigerant liquid from said inlet separator and delivering it to an evaporator liquid header. 12. A method according to claim 9 , further comprising taking refrigerant liquid from said inlet separator and delivering it directly to an inlet of said evaporator.