Refrigeration system

The invention claimed is: 1. A refrigeration system comprising: a refrigeration circuit configured to condition an air supply, wherein the refrigeration circuit comprises a compressor, a condenser, an expansion device and an evaporator in a serial flow arrangement; a subcooling circuit including a subcooling condenser, a subcooling heat exchanger, and at least one adsorption bed, wherein the subcooling heat exchanger is fluidly coupled to the refrigeration circuit between the condenser and the evaporator, the subcooling heat exchanger providing heat transfer between the refrigeration circuit and the subcooling circuit, the subcooling heat exchanger configured to provide subcooling to the refrigeration circuit and configured as an evaporator in the subcooling circuit; and a heat generation system thermally coupled to the subcooling circuit; wherein an inlet of the subcooling heat exchanger receives refrigerant from an outlet of the condenser; wherein an inlet of the expansion device receives refrigerant from an outlet of the subcooling heat exchanger. 2. The system of claim 1 , wherein the at least one adsorption bed comprises a first adsorption bed, a second adsorption bed, and a third adsorption bed. 3. The system of claim 1 , further comprising a receiver fluidly coupled between the subcooling condenser and the subcooling heat exchanger. 4. The system of claim 1 , wherein the heat generation system comprises a generator having a radiator and a jacket thermally coupled to the subcooling circuit. 5. The system of claim 1 , further comprising a heat exchange circuit configured to transfer thermal energy between the subcooling circuit and the heat generation system. 6. The system of claim 5 , wherein the refrigeration circuit comprises a first fluid, the subcooling circuit comprises a second fluid, and the heat exchange circuit comprises a third fluid. 7. The system of claim 5 , wherein the heat exchange circuit comprises a cooling circuit and a heating circuit, the cooling circuit configured to cool a first portion of the subcooling circuit, and the heating circuit configured to heat a second portion of the subcooling circuit. 8. The system of claim 7 , wherein the heat generation system is thermally coupled to the heating circuit to transfer heat generated by the heat generation system to the subcooling circuit. 9. The system of claim 7 , wherein the cooling circuit comprises a heat exchanger. 10. A transportation refrigeration system for a cargo container, the system comprising: a refrigeration circuit configured to condition a space in the cargo container, wherein the refrigeration circuit comprises a compressor, a condenser, an expansion device and an evaporator in a serial flow arrangement; a subcooling circuit having a first adsorption bed, a second adsorption bed, and a third adsorption bed, the subcooling circuit configured to provide cooling to the refrigeration circuit, wherein a subcooling heat exchanger is fluidly coupled to the refrigeration circuit between the condenser and the evaporator, the subcooling heat exchanger providing heat transfer between the refrigeration circuit and the subcooling circuit, the subcooling heat exchanger configured to provide subcooling to the refrigeration circuit and configured as an evaporator in the subcooling circuit; a generator electrically coupled to the refrigeration circuit; and a heat exchange circuit thermally coupled to the generator and the first, second, and third adsorption beds; wherein an inlet of the subcooling heat exchanger receives refrigerant from an outlet of the condenser; wherein an inlet of the expansion device receives refrigerant from an outlet of the subcooling heat exchanger. 11. The transportation refrigeration system of claim 10 , wherein the heat exchange circuit comprises a cooling circuit having a heat exchanger, and a heating circuit thermally coupled to the generator, the cooling circuit selectively providing a refrigerant to the first, second, and third adsorption beds when the first, second, and/or third adsorption beds are operating in an adsorption mode, and the heating circuit selectively transferring waste heat of the generator to the first, second, and third adsorption beds when the first, second, and/or third adsorption are operating in a desorption mode. 12. The transportation refrigeration system of claim 11 , further comprising: first three-way valves fluidly coupled between the cooling circuit, the heating circuit, and the first, second, and third adsorption beds, the first three-way valves configured to selectively supply refrigerant from the cooling circuit or the heating circuit to an inlet of the first, second, and/or third adsorption beds; and second three-way valves fluidly coupled between the first, second, and third adsorption beds, the cooling circuit, and the heating circuit, the second three-way valves configured to selectively supply refrigerant from the first, second, and third adsorption beds to the cooling circuit or the heating circuit. 13. The transportation refrigeration system of claim 10 , wherein the subcooling circuit further comprises: a condenser; the subcooling heat exchanger; outlet lines fluidly coupled between the first, second, and third adsorption beds and the condenser; a first two-way valve disposed on each of the outlet lines; inlet lines fluidly coupled between the subcooling heat exchanger and the first, second, and third adsorption beds; and a second two-way valve disposed on each of the inlet lines.