In one example, a portion of a shell includes a shell wall portion that has an interior wall portion and an exterior wall portion located near the interior wall portion. In addition, fluid passageways are disposed between the interior wall portion and the exterior wall portion. One or more of the fluid passageways are defined in part by one or both of the interior wall portion and the exterior wall portion. The fluid passageways form part of heat exchanger that is integrated in the shell.

The disclosure relates to an open-loop cooling system installed on a refrigerated barge for removing heat from an external heat exchanger in communication with a closed-loop internal cooling system. The system includes an open loop with a pump drawing water from the environment and forcing the water across the outer surface of the heat exchanger to augment existing heat removal due to contact with and flow of water across the heat exchanger due to the motion of the barge. Water is forced across the side faces and inner faces of the cooler to increase heat transfer from the barge closed-loop cooling system to the water environment.

The disclosure relates to an open-loop cooling system installed on a refrigerated barge for removing heat from an external heat exchanger in communication with a closed-loop internal cooling system. The system includes an open loop with a pump drawing water from the environment and forcing the water across the outer surface of the heat exchanger to augment existing heat removal due to contact with and flow of water across the heat exchanger due to the motion of the barge. Water is forced across the side faces and inner faces of the cooler to increase heat transfer from the barge closed-loop cooling system to the water environment.

A multilayered wall with combinations of resistant layers with a layer that can be cooled with a Direct Current (DC) compressor and/or a layer that exchanges energy with a geo thermal source to cool an area like a mailbox or a guard house or an ice chest.

A multilayered wall with combinations of resistant layers with a layer that can be cooled with a Direct Current (DC) compressor and/or a layer that exchanges energy with a geo thermal source to cool an area like a mailbox or a guard house or an ice chest.

A system for controlling a thermal signature of a boat is disclosed. The system includes a fluid compartment adjacent to an external wall of the boat. The fluid compartment is disposed between a heat source in a hull cavity of the boat and the external wall of the boat such that heat energy released from the heat source is transferred to a fluid in the fluid compartment. A fluid mover moves a first volume of the fluid out of the fluid compartment and replaces at least a portion of the first volume with a second volume of fluid, wherein the second volume of fluid has a different temperature than the first volume of fluid before entering the fluid compartment.

A system for controlling a thermal signature of a boat is disclosed. The system includes a fluid compartment adjacent to an external wall of the boat. The fluid compartment is disposed between a heat source in a hull cavity of the boat and the external wall of the boat such that heat energy released from the heat source is transferred to a fluid in the fluid compartment. A fluid mover moves a first volume of the fluid out of the fluid compartment and replaces at least a portion of the first volume with a second volume of fluid, wherein the second volume of fluid has a different temperature than the first volume of fluid before entering the fluid compartment.

A refrigerator appliance includes a casing forming a receiving space, the casing defining a contact surface that contacts a door of the refrigerator appliance, and a sealed refrigerant system provided within the casing. The sealed refrigerant system includes a hot fluid portion positioned adjacent to the contact surface. The hot fluid portion includes a connector forming a planar heat transfer surface to transfer heat from the hot fluid portion to the contact surface.

A refrigerator appliance includes a casing forming a receiving space, the casing defining a contact surface that contacts a door of the refrigerator appliance, and a sealed refrigerant system provided within the casing. The sealed refrigerant system includes a hot fluid portion positioned adjacent to the contact surface. The hot fluid portion includes a connector forming a planar heat transfer surface to transfer heat from the hot fluid portion to the contact surface.

An system and method for cooling of electronic equipment, for example a computer system, in a subsurface environment including a containment vessel in at least partial contact with subsurface liquid or solid material. The containment vessel may be disposed in a variety of subsurface environments, including boreholes, man-made excavations, subterranean caves, as well as ponds, lakes, reservoirs, oceans, or other bodies of water. The containment vessel may be installed with a subsurface configuration allowing for human access for maintenance and modification. Cooling is achieved by one or more fluids circulating inside and/or outside the containment vessel, with a variety of configurations of electronic devices disposed within the containment vessel. The circulating fluid(s) may be cooled in place by thermal conduction or by active transfer of the fluid(s) out of the containment vessel to an external heat exchange mechanism, then back into the containment vessel.