Heating, ventilation, air conditioning and refrigeration system

The invention claimed is: 1. A heating, ventilation, air conditioning and refrigeration (HVAC/R) system comprising: a sorption circuit including: a primary fluid flow source; an heat absorption heat exchanger in fluid communication with the primary fluid flow source such that a primary fluid flow from the primary fluid flow source is directed through the heat absorption heat exchanger, the heat absorption heat exchanger configured to exchange thermal energy between the primary fluid flow and a secondary fluid flow through the heat absorption heat exchanger; and a sorption heat exchanger including a volume of sorbent material to adsorb or absorb the primary fluid flow, generating thermal energy at the sorption heat exchanger, the sorption heat exchanger configured to transfer the generated thermal energy to a tertiary fluid flow through the sorption heat exchanger; a heat exchange circuit in fluid communication with the sorption circuit including: a conditioning heat exchanger; an ambient heat exchanger; and a plurality of control valves connected to both the secondary fluid flow and the tertiary fluid flow configured to selectably direct the secondary fluid flow and/or the tertiary fluid flow to the conditioning heat exchanger or the ambient heat exchanger. 2. The HVAC/R system of claim 1 , further comprising tertiary fluid flow compressor to compress the tertiary fluid flow before the tertiary fluid flow proceeds through the sorption heat exchanger. 3. The HVAC/R system of claim 1 , further comprising a heat rejection heat exchanger to cool the primary fluid flow, the tertiary fluid flow selectably directed through the heat rejection heat exchanger. 4. The HVAC/R system of claim 1 , further comprising a heat source in thermal communication with the ambient heat exchanger to further exchange thermal energy with the secondary fluid flow and/or tertiary fluid flow through the ambient heat exchanger. 5. The HVAC/R system of claim 4 , wherein the heat source is one of engine exhaust or a motor cooling system. 6. The HVAC/R system of claim 1 , further comprising a subcooler disposed along the primary fluid flow. 7. The HVAC/R system of claim 1 , wherein the primary fluid flow comprises ammonia. 8. The HVAC/R system of claim 1 , wherein the sorbent material is a salt. 9. The HVAC/R system of claim 8 , wherein the sorbent material is one of strontium chloride or barium chloride. 10. The HVAC/R system of claim 1 , wherein the sorbent material has an equilibrium vapor pressure with the primary fluid flow that is lower than a fluid vapor pressure of the primary fluid flow in the heat absorption heat exchanger. 11. The HVAC/R system of claim 1 , further comprising a primary fluid compressor in flow communication with the sorption heat exchanger to compress the primary fluid flow. 12. A method of operating a heating, ventilation, air conditioning and refrigeration (HVAC/R) system comprising: urging a primary fluid flow to an heat absorption heat exchanger; exchanging thermal energy between the primary fluid flow and a secondary fluid flow at the heat absorption heat exchanger; flowing the primary fluid flow from the heat absorption heat exchanger to a sorption heat exchanger including a volume of a sorbent material; generating thermal energy at the sorption heat exchanger by adsorption or absorption of the primary fluid flow into the sorbent material; transferring the generated thermal energy to a tertiary fluid flow at the sorption heat exchanger; and selectably directing one of the secondary fluid flow or the tertiary fluid flow through a conditioning heat exchanger to heat or cool a conditioning airflow; and selectably transferring the other of the secondary fluid flow or the tertiary fluid flow to an ambient heat exchanger. 13. The method of claim 12 , further comprising compressing the tertiary fluid flow prior to directing the tertiary fluid flow through the sorption heat exchanger. 14. The method of claim 12 , further comprising: condensing the primary fluid flow at a heat rejection heat exchanger; and flowing the tertiary fluid flow through the condenser to exchange thermal energy with the tertiary fluid flow. 15. The method of claim 12 , further comprising subcooling the primary fluid flow before directing the primary fluid flow through the heat absorption heat exchanger.