Flash tank economizer cycle control

We claim: 1. A vapor compression system of the type having in serial refrigerant flow relationship a compressor, a heat rejection heat exchanger, an expansion device and an evaporator, comprising: a flash tank economizer disposed in serial flow relationship between the heat rejection heat exchanger and the expansion device, said flash tank economizer including: a flash tank; a first flow control device disposed between the heat rejection heat exchanger and said flash tank; an economizer vapor line to fluidly interconnect said flash tank to a mid-stage of the compressor; a second flow control device disposed in said economizer vapor line; a third flow control device positioned in a line fluidly interconnecting said economizer vapor line to an inlet of said compressor separate from the mid-stage of the compressor, the line fluidly connecting the economizer vapor line to a point downstream of the evaporator and upstream of the inlet of said compressor with respect to the serial refrigerant flow; and a controller to control said second flow control device and said third flow control device such that during periods in which pressure in said flash tank equals or exceeds the critical pressure of the refrigerant, said second and third flow control devices open to thereby drain refrigerant from said flash tank to thereby reduce the pressure in said flash tank to a subcritical condition. 2. A vapor compression system as set forth in claim 1 , further comprising a sensor for sensing a condition indicative of the pressure in said flash tank. 3. A vapor compression system as set forth in claim 2 wherein said sensor is a pressure sensor or a temperature sensor. 4. A vapor compression system as set forth in claim 1 , said controller to determine pressure at said compressor mid-stage, said controller to compare said compressor mid-stage pressure with the pressure in said flash tank. 5. A vapor compression system as set forth in claim 4 , said controller to cause said second flow control device to operate such that when said compressor mid-stage pressure is determined to be greater than the pressure in the flash tank, no flow will occur in the economizer vapor line. 6. A vapor compression system as set forth in claim 4 , further comprising a second sensor for sensing the pressure at said compressor mid-stage. 7. A vapor compression system as set forth in claim 4 , said controller indirectly measuring the pressure at said compressor mid-stage. 8. A vapor compression system as set forth in claim 4 , wherein said second flow control device comprises an electronically controlled flow control device which is closed when either the flash tank pressure is equal to or greater than the refrigerant critical pressure or the compressor mid-stage pressure is greater than the flash tank pressure. 9. A vapor compression system of the type having in serial refrigerant flow relationship a compressor, a heat rejection heat exchanger, an expansion device and an evaporator, comprising: a flash tank economizer disposed in serial flow relationship between the heat rejection heat exchanger and the expansion device, said flash tank economizer including: a flash tank; a first flow control device disposed between the heat rejection heat exchanger and said flash tank; an economizer vapor line to fluidly interconnect said flash tank to a mid-stage of the compressor; a second flow control device disposed in said economizer vapor line; a third flow control device positioned in a line fluidly interconnecting said economizer vapor line to an inlet of said compressor separate from the mid-stage of the compressor, the line fluidly connecting the economizer vapor line to a point downstream of the evaporator and upstream of the inlet of said compressor with respect to the serial refrigerant flow; a fourth flow control device disposed within the economizer vapor line between the compressor mid-stage and a point in which the line is fluidly connected to said economizer vapor line; a controller to control said second flow control device and said third flow control device such that during periods in which pressure in said flash tank equals or exceeds the critical pressure of the refrigerant, said second and third flow control devices open to thereby drain refrigerant from said flash tank to thereby reduce the pressure in said flash tank to a subcritical condition; said controller to control said fourth flow control device such that when the second and third flow control devices open to thereby drain refrigerant from said flash tank, the fourth flow control device is closed in order to prevent the refrigerant from entering the compressor mid-stage.