Apparatus, systems, and methods for providing cooled air to an aircraft using dry ice. The cooling apparatus includes dry ice hopper to store dry ice and feed it to a dry ice mill, which is turn mills the dry ice into an insulated vessel containing a fluid coolant. A fluid coolant loop connects the insulated vessel with a heat exchanger, and a pump transports the fluid coolant through the fluid coolant loop. An agitator within the insulated vessel is coupled to the pump, so that operation of the pump causes the agitator to agitate the mixture of fluid coolant and milled dry ice within the insulated vessel. Cool air is provided to the aircraft by an air delivery system that conveys air across the heat exchanger.

An apparatus for maintaining the temperature of an article at a temperature that is below the ambient air temperature includes an enclosure having an outer wall that defines an interior chamber for holding a volume of sealed air. An insert is disposed inside of the chamber and has a body that is made of a porous graphite foam material. A vacuum pump penetrates the outer wall and fluidly connects the sealed air in the interior chamber with the ambient air outside of the enclosure. The temperatures of the insert and article is maintained at temperatures that are below the ambient air temperature when a volume of a liquid is wicked into the pores of the porous insert and the vacuum pump is activated to reduce the pressure of a volume of sealed air within the interior chamber to a pressure that is below the vapor pressure of the liquid.

The invention relates to a coolable optical table with a table top and at least three table legs. Securing means for securing objects such as optical elements are provided in a table surface of the table top. The table legs are equipped with a damping device for damping vibrations.

A shipping vessel includes a cryogenic tank secured to the shipping foundation; a payload bay to receive products therein; a tube connected to the cryogenic tank and thermally coupled to the payload bay; a housing secured to the shipping foundation, said housing covering the tube and the payload bay to thermally seal the payload bay from outside environment; a controller mounted on the housing and having a sensor to determine temperature in a closed-loop and maintaining a set point within a predetermined range; and an energy storage device coupled to the controller and electronics to provide power for a predetermined shipping period.

A cooling pipe system, including an evaporation pipe slantly arranged, a water inlet pipe, and a water removal assembly. An output end of the water inlet pipe is connected to an input end of the evaporation pipe, the water inlet pipe is connected to a three-way valve for introducing low molecular weight gas into the evaporation pipe. The water removal assembly is located below the evaporation pipe and includes a water sealing cavity, the output end of the evaporation pipe is connected to the water sealing cavity by means of a recovery pipe, the water sealing cavity is connected to a first pipeline extending upwards and communicated with the input end of the evaporation pipe, a lower end of the first pipeline is connected to a molecular sieve for preventing water vapor from passing through, and the water removal assembly is configured for absorbing the water vapor.

The evaporative condenser cooling system is an air cooling system combining an evaporative condenser and a sensible heat exchanger. The evaporative condenser cools environmental air in a conventional manner, and includes a condenser immersed in water contained within a water reservoir. The water in the reservoir is also used to humidify another portion of environmental air, which is, in turn, cooled by evaporative cooling, and this cooled air is used in a heat exchange process with the sensible heat exchanger. The sensible heat exchanger is in communication with the water reservoir to provide additional cooling to the water therein, which is used to provide a further cooled environment for the condenser, enhancing heat exchange between the condenser and the water in which it is immersed.

The evaporative condenser cooling system is an air cooling system combining an evaporative condenser and a sensible heat exchanger. The evaporative condenser cools environmental air in a conventional manner, and includes a condenser immersed in water contained within a water reservoir. The water in the reservoir is also used to humidify another portion of environmental air, which is, in turn, cooled by evaporative cooling, and this cooled air is used in a heat exchange process with the sensible heat exchanger. The sensible heat exchanger is in communication with the water reservoir to provide additional cooling to the water therein, which is used to provide a further cooled environment for the condenser, enhancing heat exchange between the condenser and the water in which it is immersed.

A cryostat for a superconducting magnet system is provided. The cryostat may include an outer vessel and an inner vessel suspended within the outer vessel. A space may be defined by the outer vessel and the inner vessel. The cryostat may include multiple first support elements and one or more second support elements. The strength of the first supporting element may be larger than that of the second support elements. The inner vessel and the outer vessel may be connected by two opposite ends of a first support element and two opposite ends of a second support element, respectively. The number of the first support elements in the lower part of the space is different from the number of the first support elements in the upper part of the space.

A cryostat includes a cryogenic refrigerator arranged to cool the interior of a cryogen vessel within the cryostat, the cryogenic refrigerator being arranged inside a refrigerator sock. A pipe is controlled by a passive temperature-sensitive valve to selectively provide a path for cryogen gas flow through the refrigerator sock. The passive temperature-sensitive valve is controlled according to a temperature of the cryogen gas supplied from the refrigerator sock to the passive temperature-sensitive valve.

An example device includes a photovoltaic (PV) unit and a desiccant-based passive cooling component that is thermally coupled to the PV unit. The desiccant-based passive cooling component is configured to sorb, under first conditions, moisture from an environment that surrounds the device, via at least one of adsorption or absorption, and evaporate, under second conditions that are different from the first conditions, at least a portion of the moisture.