Systems and methods for storing a perishable object are provided. An example system comprises an enclosure body forming a cavity and a lid which removably engages with at least a portion of the enclosure body to form a chamber enclosing a perishable object. The system also comprises a thermal insulator disposed within the cavity, a temperature control system disposed within the cavity to adjust a temperature of the environment based on a target temperature range associated with the perishable object, a humidity control system disposed within the cavity, the humidifying system comprising a heating element in contact with a liquid to adjust a humidity of the environment based on a target humidity range associated with the perishable object.

A refrigerator includes a cabinet configured to form a storage space, a temperature adjusting device configured to cool the storage space, a fan configured to blow air heat-exchanged with the temperature adjusting device to the storage space, a heating device configured to heat the storage space, and a controller configured to control the fan and the heating device, in which the controller starts a humidity care mode which drives the fan if a door that opens and closes the storage space is in a closed state, the temperature adjusting device is not operated, and the heating device is off.

A method and system is provided which receives a desired humidity level from a user for the refrigeration compartment of a refrigerator, determines the current humidity level, and then activates an atomizer in the refrigeration compartment to increase the humidity level if needed. The humidity in the refrigeration compartment may be determined based at least in part on the temperature of the refrigeration compartment, the defrost timer, the door opening times, and the compressor timer.

A humidity control system for regulating the relative humidity of a chamber enclosed within a low humidity environment is provided. An exemplary humidity control system includes features that can provide for dynamic control of the relative humidity of the chamber, utilize relatively minimal energy, readily maintain the desired relative humidity within the chamber, and/or some combination thereof.

A refrigeration appliance includes a storage area for refrigerated goods and a control facility or unit for controlling a storage climate in the storage area by using storage climate parameters. One storage climate parameter is a temperature in the storage area. Another storage climate parameter relates to an air speed in the storage area. The refrigeration appliance is used in particular for the dry curing of meat.

A modular humidity control system is provided. An example system includes a body configured for attachment with a food storage housing. The body may define a closed circuit air flow path for circulating air through the food storage housing. The system also includes a desiccant element secured within the closed circuit air flow path that removes moisture from the moisture-laden air passing through the closed circuit air flow path, and stores the removed moisture. The system further includes a regeneration that monitors a saturation of the desiccant element. In an instance in which the saturation of the desiccant element exceeds a saturation threshold, the regeneration system may evaporate at least a portion of the moisture stored by the desiccant element.

Provided is a multifunctional chamber and a refrigerator. The chamber comprises a door body, an inner container enclosed by a plurality of plate bodies, at least one opening provided in at least one of the plurality of plate bodies, a moisture preserving module disposed at the opening and used for regulating and controlling the humidity of the chamber, an upper cover movably disposed on the moisture preserving module, and at least one air port provided in at least one of the plurality of plate bodies and used for discharging moisture from the chamber. When the chamber is at a high-humidity mode, the upper cover moves at the moisture preserving module to expose the moisture preserving module; and when the chamber is at drying mode, the upper cover completely covers the moisture preserving module.

A domestic appliance includes at least one PEF unit having at least one pair of electrodes and a network part for supplying the electrodes with an operating voltage. The operating voltage is of a suitable magnitude to expose material in a space between the electrodes to an electrical field having a field strength of at least 500 V/mm, and the duration of the exposure is short enough to avoid a breakdown. A water pipe extends through the space. A spacing between the electrodes is a maximum of 3 mm.

A refrigeration device includes a storage area which is delimited by a body and a door and which is subdivided by a shelf into an upper and a lower compartment. A drawer is accommodated in the lower compartment. In a stop position of the drawer in which it is pushed into the lower compartment, a front wall of the drawer bears against a front edge of the shelf. A closure element can be moved across a passage or opening in the shelf between a position which blocks the passage and a position which opens the passage over at least part of its cross section.

An augmented heat transfer system can be used to control the humidity of adjacent conditioned spaces by selectively absorbing latent heat energy from a relatively warm space, such as a loading dock, and discharging this energy in the form of sensible heat to an adjacent relatively cold space, such as a freezer served by the loading dock. This transfer of sensible heat energy into the cold space induces a vapor compression system to remove sufficient moisture from the cold space to avoid uncontrolled precipitation. At the same time, the process of removing moisture/latent heat from the warm space can also be used to reduce humidity in the warm space via condensation on a cold evaporator. Therefore, in operations where the warm space and the cold space are both nominally sealed from ambient air, such as an indoor loading dock serving a freezer, the augmented heat transfer system can eliminate uncontrolled precipitation in the freezer while also mitigating moisture ingress to the freezer from the dock space.