Electrical transport refrigeration system

The invention claimed is: 1. A transport refrigeration unit comprising: an electrically powered refrigeration module that includes: an electrically powered first compressor, an evaporator equipped with a first electric blower, and an electrically controlled expansion valve configured to control a refrigerant flow into the evaporator; a frame to support the electrically powered first compressor, the evaporator, the first electric blower, and the electrically controlled expansion valve; a power regulator circuit configured to, while in transport, receive power solely from an electric power supply and configured to supply DC and AC power having variable voltages and/or frequencies to the electrically powered first compressor, the first electric blower, and the electrically controlled expansion valve so as to power the electrically powered refrigeration module without the use of an engine while in transport, wherein the electrically powered first compressor, the evaporator and the expansion valve are configured to form a refrigeration circuit. 2. The transport refrigeration unit of claim 1 , wherein the electrically powered refrigeration module further includes a gas cooler equipped with a second electric blower, wherein the gas cooler is configured to be part of the refrigeration circuit. 3. The transport refrigeration unit of claim 2 , wherein refrigerant of the electrically powered transport refrigeration module is CO 2 , and wherein the refrigerant is configured to circulate in the refrigeration circuit. 4. The transport refrigeration unit of claim 2 , wherein the electrically powered refrigeration module further includes an electrically powered second compressor positioned between the gas cooler and the electrically powered first compressor in the refrigeration circuit. 5. The transport refrigeration unit of claim 1 , wherein the electrically powered first compressor is a semi-hermetic compressor. 6. The transport refrigeration unit of claim 1 , further comprising a control circuit configured to interface with the power regulator circuit, wherein the control circuit is configured to determine the DC voltage, and/or the AC voltage and/or a frequency of at least one of the DC and AC power having variable voltages and/or frequencies. 7. The transport refrigeration unit of claim 1 , wherein the electrically powered first compressor is a two-stage semi-hermetic compressor. 8. The transport refrigeration unit of claim 6 , wherein the control circuit is configured to receive location information by a global positioning system. 9. The transport refrigeration unit of claim 1 , wherein the electrically powered transport refrigeration module is configured to be powered by an electric grid of a tractor. 10. The transport refrigeration unit of claim 1 , wherein the power regulator circuit is thermally coupled to a cooling circuit. 11. The transport refrigeration unit of claim 1 , wherein the power regulator circuit includes a DC/AC alternator, an AC/AC converter, a DC converter, and a plurality of variable DC, AC outputs connected to one or more of the DC/AC alternator, the AC/AC converter and the DC converter, wherein the DC/AC alternator, the AC/AC converter and the DC converter are each configured to receive electric power from the electric power supply and convert the received electric power into the DC and AC power that is then sent by one or more of the plurality of variable DC, AC outputs to the electrically powered first compressor, the first electric blower, and the electrically controlled expansion valve. 12. The transport refrigeration unit of claim 11 , further comprising a control circuit configured to interface with the DC/AC alternator, the AC/AC converter and the DC converter and to vary the DC and AC power sent through each of the plurality of DC, AC outputs. 13. The transport refrigeration unit of claim 1 , further comprising a power regulator cooling circuit that is thermally coupled to the power regulator circuit to regulate an operational temperature of the power regulating circuit, wherein the power regulator cooling circuit includes a coolant pump, a coolant radiator, a coolant heat exchanger, and a coolant expansion tank; wherein the coolant heat exchanger forms a heat exchange relationship with the power regulator circuit. 14. An electrically powered refrigeration module of a transport refrigeration unit comprising: an electrically powered compressor including a first stage compressor, a second stage compressor, and an inter-cooler positioned between the first stage compressor and the second stage compressor; an evaporator equipped with a first electric blower; and an electrically controlled expansion valve configured to control a refrigerant flow into the evaporator; wherein the electrically powered first compressor, the electrically powered second compressor, the inter-cooler, the evaporator and the electrically controlled expansion valve are configured to form a refrigeration circuit, a power regulator circuit configured to, while in transport, receive power solely from an electric power supply and configured to supply DC and AC power having variable voltages and/or frequencies to the electrically powered compressor, the first electric blower, and the electrically controlled expansion valve so as to power the electrically powered refrigeration module without the use of an engine while in transport. 15. The electrically powered refrigeration module of claim 14 , further comprising CO 2 as a refrigerant. 16. The electrically powered refrigeration module of claim 14 , further comprising at least one electrically powered heating rod. 17. The electrically powered refrigeration module of claim 14 , wherein the power regulator circuit includes a DC/AC alternator, an AC/AC converter, a DC converter, and a plurality of variable DC, AC outputs connected to one or more of the DC/AC alternator, the AC/AC converter and the DC converter, wherein the DC/AC alternator, the AC/AC converter and the DC converter are each configured to receive electric power from the electric power supply and convert the received electric power into the DC and AC power that is then sent by one or more of the plurality of variable DC, AC outputs to the electrically powered first compressor, the first electric blower, and the electrically controlled expansion valve. 18. An electrically powered refrigeration module of a transport refrigeration unit comprising: an electrically powered refrigeration circuit that provides temperature control to a transport unit, the electrically powered refrigeration circuit including: a CO 2 compressor including a first compression stage and a second compression stage; the CO 2 compressor including an inter-cooler positioned between the first compression stage and the second compression stage; an electrically controlled expansion valve configured to control a refrigerant flow into an evaporator; and a power regulating circuit that powers the electrically powered refrigeration circuit, wherein the power regulating circuit, while in transport, receives power solely from an electric power supply and wherein the power regulating circuit is configured to provide a AC power having a variable voltage or frequency to the CO 2 compressor and a DC power having a variable voltage to the electrically controlled expansion valve so as to power the electrically powered refrigeration module without the use of an engine while in transport. 19. The electrically powered refrigeration module of the transport refrigeration unit of cl