An appliance cabinet includes a wrapper that has sidewalls and define a machine compartment. An attachment feature is coupled to the wrapper proximate the sidewalls. The attachment feature includes horizontal supports and vertical supports that define a lattice structure of the attachment feature, and a selectively removable side access panel is removably coupled to the sidewalls to define at least one access point to the machine compartment.

A refrigerator includes a main body and a supporting structure disposed below the main body upon which the refrigerator is supported on a floor. A pair of guide rails is affixed to a bottom wall of the main body along a pair of opposed lateral sides of the main body and extend between a rear wall and a front side of the main body. A portion of a heat loop tube for a refrigeration system extends externally out of the internal storage compartment and is disposed below the main body and within a cavity. A toe kick is disposed proximate a bottom edge of the front side of the main body and proximate the floor for containing the portion of the heat loop tube within the cavity and isolating the portion of the heat loop tube from an exterior of the refrigerator.

A mobile cooling box has a box main body and at least one lid for opening the mobile cooling box and providing access to the inside of the mobile cooling box. The mobile cooling box further has at least one air vent 400 located on at least one side wall of the box main body, the at least one air vent comprises at least one opening, preferably in form of an essentially horizontal slot, allowing air flow through the respective side wall of the mobile cooling box. The at least one opening or slot comprises one or more shielding elements that are designed in such a way that the one or more shielding elements at least partly block the view into the inside of the mobile cooling box from the outside of the mobile cooling box.

According to various aspects, exemplary embodiments are disclosed of chiller systems including thermoelectric modules, and corresponding control methods. In an exemplary embodiment, a compressor chiller system generally includes a refrigerant loop having a refrigerant fluid, a compressor connected in the refrigerant loop to compress the refrigerant fluid, and a condenser connected in the refrigerant loop to receive the compressed refrigerant fluid from the compressor and to condense the compressed refrigerant fluid. The system also includes a heat transfer component connected in the refrigerant loop to receive the condensed refrigerant fluid from the condenser, and a coolant loop having a coolant fluid. The heat transfer component is connected in the coolant loop to transfer heat from the coolant fluid to the condensed refrigerant fluid. The system further includes a thermoelectric module connected in the coolant loop. The thermoelectric module is adapted to transfer heat into and/or out of the coolant fluid.

Proposed is a refrigerator. According to the refrigerator, a storage space (121) may be defined in a cabinet (100), and a machine room (201) may be arranged under the storage space (121). To implement a cooling system, a compressor (610), a condenser (620), and a heat dissipation fan (611) may be included in the machine room (201). In addition, a control module (700) may be provided in the machine room (201) to face an outlet (225b) of the machine room (201). The control module (700) may be installed at a position close to the entrance of the machine room (201) and may be separated frontward from the machine room (201), and thus accessibility to the control module (700) can be enhanced.

Proposed is a refrigerator. The refrigerator may include a cabinet (100) having a storage space (121), and a machine room (201) disposed below the storage space (121). The machine room (201) may include a compressor (610), a condenser (620), and a heat dissipation fan (611) to implement a cooling system, and have an inlet (225a) and an outlet (225b) formed on a front surface thereof. In addition, the compressor (610) and the heat dissipation fan (611) are disposed at the rear of the machine room (201), and the compressor (610) may be disposed in a space partitioned from a space in which the condenser (620) is disposed.

Low Reynolds number forced convection heat transport within the fin channels enhanced by deliberate formation of unsteady, small-scale vortical motions using elastically fluttering thin-film reeds. The vortical motions substantially increase the local heat transfer coefficient at the channel walls and mixing between the wall thermal boundary layers and the cooler core flow. The flow mechanisms associated with production, advection and dissipation of these small-scale motions are investigated in a modular, high aspect ratio channel using micro-PIV, video imaging of the reed motion, and hot-wire anemometry. The global heat transfer enhancement in a modular heat sink prototype shows that the reed-induced small scale motions increase the turbulent kinetic energy of the flow even when the base flow undergoes transition to turbulence, leading to an increase in the local and global Nusselt number that is sustained at higher Re and a minor relative increase in losses.

A storage system for a house entrance includes an entrance refrigerator, a first storage disposed above the entrance refrigerator, and a second storage disposed below the entrance refrigerator.

A refrigerator includes a noise reduction device and a machine room that accommodates a condenser and a compressor. The noise reduction device includes a sensing unit configured to measure noise generated from the machine room of the refrigerator and a generating unit configured to output a sound signal having a frequency canceling or reducing the noise. The machine room is defined by a case that has a communication portion configured to communicate a fluid between an inside of the case and an outside of the case to thereby exchange heat between the fluid and the condenser and between the fluid and the compressor.

A refrigeration apparatus for transport includes an electric component box that houses an inverter board and is arranged on a lateral side of an external heat exchanger. The electric component box has an opposing plate that faces an air entrance surface of the external heat exchanger. A heat sink is provided on the opposing plate of the electric component box. The heat sink is exposed to the outside of the electric component box to cool a power module on the inverter board.