Capacity and pressure control in a transport refrigeration system

We claim: 1. A transport refrigerant vapor compression system, comprising: a refrigerant circuit including a refrigerant compression device having at least one compression stage, a refrigerant heat rejection heat exchanger operatively coupled downstream of a discharge port of the refrigerant compression device, a refrigerant heat absorption heat exchanger downstream of said refrigerant heat rejection heat exchanger operatively coupled upstream of an inlet port of the refrigerant compression device, a primary expansion device disposed in the refrigerant circuit downstream of said refrigerant heat rejection heat exchanger and upstream of said refrigerant heat absorption heat exchanger; a refrigerant reservoir disposed in the refrigerant circuit downstream of the refrigerant heat rejection heat exchanger and upstream of the primary expansion device; an auxiliary expansion device disposed in the refrigerant circuit, the auxiliary expansion device disposed in the refrigerant circuit downstream of the refrigerant heat rejection heat exchanger and upstream of the refrigerant reservoir; and a controller configured to control operation of the transport refrigerant vapor compression system, the controller configured to control the discharge pressure of the refrigerant compression device using both the refrigerant reservoir and the auxiliary expansion device during a transcritical vapor compression cycle or a subcritical vapor compression cycle without increasing a refrigerant compression device pressure ratio and while maintaining a refrigerant compression device discharge temperature below a threshold temperature. 2. The transport refrigerant vapor compression system of claim 1 , where the auxiliary expansion device is disposed in a second refrigerant flow path, the second refrigerant flow path disposed in said refrigerant circuit downstream of the refrigerant heat rejection heat exchanger and upstream of the refrigerant heat absorption heat exchanger. 3. The transport refrigerant vapor compression system of claim 1 , where the controller controls the discharge pressure of the refrigerant compression device using both the refrigerant reservoir and the auxiliary expansion device without changing a refrigerant heat absorption heat exchanger superheat or a refrigerant compression device superheat. 4. The transport refrigerant vapor compression system of claim 1 , further comprising an adiabatic expansion device coupled to a suction inlet line, the controller configured to perform transport refrigerant vapor compression system capacity control using the adiabatic expansion device. 5. The transport refrigerant vapor compression system of claim 1 , further comprising: at least one of a compressor discharge temperature (CDT) sensor and a compressor discharge pressure (CDP) transducer; the controller configured to determine the discharge pressure of the refrigerant compression device in response to the at least one of the compressor discharge temperature (CDT) sensor and the compressor discharge pressure (CDP) transducer; the controller configured to control the discharge pressure of the refrigerant compression device to reduce refrigerant compression device discharge temperature when the refrigerant compression device discharge temperature is above the threshold temperature. 6. The transport refrigerant vapor compression system of claim 5 , where the primary expansion device is an adjustable flow control device (EEV), and the controller is configured to reduce the refrigerant compression device discharge temperature when the refrigerant compression device discharge temperature is above the threshold temperature by decreasing the discharge pressure of the refrigerant compression device using the adjustable flow control device (EEV). 7. The transport refrigerant vapor compression system of claim 1 , comprising an economizer circuit associated with the refrigerant circuit. 8. The transport refrigerant vapor compression system of claim 7 , wherein the economizer circuit includes a vapor refrigerant injection line opening to an intermediate pressure stage of the refrigerant compression device and a first flow control valve disposed in the vapor refrigerant injection line. 9. The transport refrigerant vapor compression system of claim 7 , comprising a liquid refrigerant injection line upstream of the refrigerant heat absorption heat exchanger and opening to an inlet line of the refrigerant compression device and a second flow control valve disposed in the liquid refrigerant injection line. 10. The transport refrigerant vapor compression system of claim 7 comprising a refrigerant bypass line and third flow control valve to provide a refrigerant flow passage from an intermediate pressure stage of the refrigerant compression device back to an inlet line of the refrigerant compression device. 11. The transport refrigerant vapor compression system of claim 1 , wherein a refrigerant is at least one of HCFC refrigerants, HFC refrigerants, natural refrigerants, or carbon dioxide, and wherein the transport refrigerant vapor compression system operates in one of a transcritical mode or a subcritical mode.