Engine off vapor compression adsorption cycle

We claim: 1. A cooling system for a vehicle, comprising: a compressor configured to compress a refrigerant in a gas state; a condenser configured to remove heat from the refrigerant to convert the refrigerant from the gas state to a liquid state; an accumulator configured to store refrigerant from the condenser at a high pressure; an evaporator configured to remove heat from an operator cabin with the refrigerant; a pressure reducer configured to decrease refrigerant pressure and to meter an amount of refrigerant that is received by the evaporator; and an adsorption bed having an adsorption material that adsorbs refrigerant when the compressor is off, wherein when the compressor is off, the accumulator releases the stored high pressure condensed refrigerant to cool the operator cabin. 2. The cooling system of claim 1 , wherein the evaporator includes a blower that circulates air in the operator cabin. 3. The cooling system of claim 1 further comprising: a valve configured to allow heat from the vehicle to cause the adsorbed refrigerant to desorb from the adsorption bed; and a controller that controls the valve to open and close. 4. The cooling system of claim 1 , wherein the adsorption material is activated carbon, zeolite, silica gel or activated alumina. 5. The cooling system of claim 3 , wherein the desorbed refrigerant returns to the compressor. 6. The cooling system of claim 1 , wherein the adsorption of refrigerant creates a pressure gradient in the cooling system that allows the accumulator to release the stored refrigerant. 7. A cooling system for a vehicle, comprising: a compressor configured to compresses a refrigerant in a gas state; a condenser configured to remove heat from the refrigerant to convert the refrigerant from the gas state to a liquid state; an accumulator configured to store refrigerant from the condenser at a high pressure; an evaporator configured to remove heat from an operator cabin with the refrigerant; a heat exchanger coupled to the condenser and configured to remove heat from the refrigerant in the condenser; a first pressure reducer configured to decrease refrigerant pressure and to meter an amount of refrigerant that is received by the heat exchanger from the accumulator; and an adsorption bed having an adsorption material that adsorbs refrigerant from the heat exchanger. 8. The cooling system of claim 7 , wherein the evaporator includes a blower that circulates air in the operator cabin. 9. The cooling system of claim 7 further comprising: a valve configured to allow heat from the vehicle to cause the adsorbed refrigerant to desorb from the adsorption bed; and a controller that controls the valve to open and close. 10. The cooling system of claim 9 , wherein the desorbed refrigerant returns to the compressor. 11. The cooling system of claim 7 , wherein the adsorption material is activated carbon, zeolite, silica gel, or activated alumina. 12. The cooling system of claim 7 , wherein the adsorption of refrigerant creates a pressure gradient in the cooling system that allows the accumulator to release the stored refrigerant. 13. The cooling system of claim 7 , wherein the heat exchanger absorbs heat with the refrigerant from the accumulator. 14. The cooling system of claim 7 further comprising a second pressure reducer configured to decrease refrigerant pressure and to meter an amount of refrigerant that is received by the evaporator.