Dry ice-based cooling systems

What is claimed is: 1. An apparatus for providing cooled air within an aircraft, comprising: an insulated vessel containing a fluid coolant; a dry ice mill configured to mill dry ice, having an impeller configured to rotate, where energizing the impeller causes the dry ice to be driven into the fluid coolant within the insulated vessel; a dry ice hopper configured to store dry ice and feed the dry ice to the dry ice mill, wherein the impeller drives the dry ice from the dry ice hopper against a screen, which converts the dry ice into a dry ice snow; a fluid coolant loop connecting the insulated vessel and a heat exchanger, where the fluid coolant loop is configured to deliver the fluid coolant to the heat exchanger and return the fluid coolant to the insulated vessel; a pump operatively coupled with the fluid coolant loop to transport the fluid coolant through the fluid coolant loop; an agitator disposed within the insulated vessel and coupled to the pump, configured so that operation of the pump will cause the agitator to agitate a mixture of the fluid coolant and milled dry ice within the insulated vessel; and an air delivery system that conveys air across the heat exchanger and provides the cooled air within the aircraft; wherein the pump includes a drive shaft that extends through a wall of the insulated vessel, and the agitator is coupled to the drive shaft, such that operation of the pump causes rotation of the agitator and agitates the mixture of the fluid coolant and milled dry ice. 2. The apparatus of claim 1 , wherein the dry ice mill is one of a grinder, a crusher, a shredder, or a pelletizer. 3. The apparatus of claim 1 , wherein the dry ice mill is configured to mill a dry ice powder into the fluid coolant. 4. The apparatus of claim 1 , wherein the dry ice mill is configured to operate intermittently. 5. The apparatus of claim 1 , wherein the fluid coolant includes an organic glycol. 6. The apparatus of claim 5 , wherein the fluid coolant includes one or more of ethylene glycol, diethylene glycol, and propylene glycol. 7. The apparatus of claim 5 , wherein the fluid coolant is substantially free of water. 8. A system for providing cooled air within an aircraft, comprising: an apparatus including an insulated vessel containing a heat transfer fluid; a dry ice mill configured to mill dry ice, having an impeller configured to rotate, where energizing the impeller causes dry ice to be driven into the heat transfer fluid within the insulated vessel; a dry ice hopper configured to store dry ice and feed the dry ice to the dry ice mill, wherein the impeller drives the dry ice from the dry ice hopper against a screen, which converts the dry ice into a dry ice snow; a fluid coolant loop connecting the insulated vessel and a heat exchanger, where the fluid coolant loop is configured to deliver the heat transfer fluid to the heat exchanger and return the heat transfer fluid to the insulated vessel; a pump operatively coupled with the fluid coolant loop to transport the heat transfer fluid through the fluid coolant loop; and an agitator disposed within the insulated vessel and coupled to the pump, configured so that operation of the pump will cause the agitator to agitate a mixture of the heat transfer fluid and milled dry ice within the insulated vessel; an air delivery system that conveys air across the heat exchanger and provides the cooled air within the aircraft; and a thermostat configured to operate the apparatus so as to provide air within the aircraft at a desired temperature; wherein the pump includes a drive shaft that extends through a wall of the insulated vessel, and the agitator is coupled to the drive shaft, such that operation of the pump causes rotation of the agitator and agitates the mixture of the heat transfer fluid and milled dry ice. 9. The system of claim 8 , wherein the air delivery system provides the cooled air within the aircraft via a plurality of gaspers. 10. The system of claim 8 , wherein the thermostat is configured to control an operation of one or more of the dry ice mill, the pump, and the air delivery system to provide air within the aircraft at the desired temperature. 11. The system of claim 10 , wherein the thermostat is configured to control the operation of the dry ice mill to provide air within the aircraft at the desired temperature. 12. The system of claim 8 , wherein the thermostat is configured to operate the apparatus so as to provide air having a desired temperature of 40-50° F. within the aircraft. 13. The system of claim 8 , further comprising a venting system for the apparatus that is configured to deliver evolved CO 2 gas from the apparatus to one or more fuel tanks, cargo areas, or galley areas for use as an inerting or fire suppressing agent. 14. The system of claim 8 , further comprising a dry ice generator configured to convert liquid CO 2 to solid dry ice for addition to the dry ice hopper. 15. A method of providing cooled air to an aircraft, comprising: charging a dry ice hopper with dry ice, where the dry ice hopper is configured to feed the dry ice to a dry ice mill; milling the dry ice with the dry ice mill so that the milled dry ice is added to an insulated vessel containing a fluid coolant to form a mixture, including driving the dry ice into the fluid coolant by rotating an impeller, wherein the impeller drives the dry ice from the dry ice hopper against a screen, which converts the dry ice into a dry ice snow; agitating the mixture of fluid coolant and milled dry ice within the insulated vessel using an agitator disposed in the insulated vessel, thereby cooling the fluid coolant; circulating the cooled fluid coolant through a fluid coolant loop using a pump, where the agitator is operatively coupled to the pump so that operation of the pump causes the agitator to agitate the mixture of fluid coolant and milled dry ice; and where the fluid coolant loop delivers the fluid coolant to a heat exchanger and returns it to the insulated vessel; conveying air across the heat exchanger to cool the air; and providing the cooled air to the aircraft; wherein the pump includes a drive shaft that extends through a wall of the insulated vessel, and the agitator is coupled to the drive shaft, such that operation of the pump causes rotation of the agitator and agitates the mixture of the fluid coolant and milled dry ice. 16. The method of claim 15 , wherein providing the cooled air to the aircraft includes delivering the cooled air to a plurality of gaspers within the aircraft. 17. The method of claim 15 , wherein milling the dry ice with the dry ice mill includes shredding or grating the dry ice. 18. The method of claim 15 , wherein milling the dry ice with the dry ice mill includes grinding the dry ice to a dry ice powder. 19. The method of claim 15 , further comprising venting CO 2 gas evolved from the fluid coolant to a fuel tank of the aircraft as an inerting agent. 20. The apparatus of claim 1 , wherein operation of the dry ice mill and the impeller is controlled to regulate an amount of dry ice delivered into the fluid coolant within the insulated vessel. 21. The apparatus of claim 1 , wherein the fluid coolant comprises ethylene glycol, and a rate of addition of dry ice is at least an addition of 0.5 lbs. of dry ice per minute relative to 9.5 lbs. of the fluid coolant, such that an amount of dry ice by weight that is added per minute is at a ratio of at least 1/20 to an amount of coolant by weight that is within