A condensation management apparatus comprises a microstructured film arranged to condense water vapor on an underside of a substantially horizontal surface. The film comprises channels disposed at least on a first major surface and configured to support capillary movement of condensate. The channels have a channel axis substantially parallel with a longitudinal axis of the film. A capillary siphon structure of the film comprises a fold in the film, a condensate collection region proximate the fold, and a siphon region between the fold and a condensate release location of the film. At least a portion of a second major surface is attached to the underside of the substantially horizontal surface such that longitudinal openings of the channels of the condensate collection region are oriented towards a direction of gravity and the condensate release location is positioned lower along the direction of gravity than the condensate collection region.

An apparatus comprises a cooling medium compartment between first and second beverage compartments, and a water permeable membrane. The cooling medium compartment comprises a topside zipper and underside zipper. When the underside zipper is closed, there is no opening between the cooling medium compartment and the water permeable membrane. When the underside zipper is at least a partially open, there is an opening between the cooling medium compartment and the permeable membrane to allow water to move from the cooling medium compartment to the permeable membrane. The apparatus provides the option of whether or not to cool the back of the user's neck with a cooling medium placed in the apparatus that wets a water permeable portion of the apparatus that is in contact with the neck of the user.

A manufacturing method for a moisture permeable device suitable for use in a refrigerator where the device includes a corresponding first surface (110) and second surface (111); at least parts of the first surface (110) and the second surface (111) of the moisture permeable device define a hollow cavity (301); through-holes are provided at regions of the first surface (110) and the second surface (111) of the moisture permeable device defining the cavity (301); and regenerated cellulose is accommodated in the cavity (301) includes the steps of pouring a regenerated cellulose slurry with a tackifier added thereto into the cavity (301) to form a moisture permeable film, thus allowing omission of an assembling procedure and a non-woven support.

A countertop freezer and systems and methods for removing moisture from a refrigeration system are provided. In some embodiments, the countertop freezer includes a bin. In some embodiments, the bin includes a removable insert that is adaptable to the type(s) of products to be sold. In some embodiments, the countertop freezer includes a sliding mechanism that causes the bin to slide outward as the door is opened. In some embodiments, the countertop freezer includes a lighting mechanism on the door that is modular/serviceable and shines light at an angle to allow the product to be illuminated both when the door is closed and when the door is opened.

A water-removing system for a refrigerator comprises a water reservoir pan, a first line of wicking pad array, and a second line of wicking pad array. The water reservoir pan is for collecting water from compressor. The first line of wicking pad array comprises wavy wicking pads, and each of the wavy wicking pads has a horizontal cross-sectional shape of an extended “S” and is disposed in a direction of air flow from the fan motor to the wavy wicking pads, so that a length of the wavy wicking pad for the air flow is increased rather than a straight cross-sectional shape, and lower portions of the wavy wicking pads are immersed in the water reservoir pan. The second line is disposed behind of the first line so that each of the wavy wicking pads of the second line is disposed between two wavy wicking pads of the first line.

A moisture permeable device and refrigerator having the same; the moisture permeable device comprises a corresponding first surface (110) and second surface (111); at least parts of the first surface (110) and the second surface (111) of the moisture permeable device define a hollow cavity (301); through-holes are provided at regions of the first surface (110) and the second surface (111) of the moisture permeable device defining the cavity (301); and regenerated cellulose is accommodated in the cavity (301). A manufacturing method of the moisture permeable device comprises pouring a regenerated cellulose slurry with a tackifier added thereto into the cavity (301). By providing the cavity (301), the regenerated cellulose can be directly poured into the cavity (301) to form a moisture permeable film, thus allowing omission of an assembling procedure and a non-woven support.

A novel self-cooling food product container apparatus and a process for manufacturing the same is disclosed. A self-cooling food product container combined with a substantive vapor transport system producing a humidification cooling process for cooling food and beverage products. Methods of assembling and operating the apparatus are also provided.

A manufacturing method for a moisture permeable device suitable for use in a refrigerator where the device includes a corresponding first surface (110) and second surface (111); at least parts of the first surface (110) and the second surface (111) of the moisture permeable device define a hollow cavity (301); through-holes are provided at regions of the first surface (110) and the second surface (111) of the moisture permeable device defining the cavity (301); and regenerated cellulose is accommodated in the cavity (301) includes the steps of pouring a regenerated cellulose slurry with a tackifier added thereto into the cavity (301) to form a moisture permeable film, thus allowing omission of an assembling procedure and a non-woven support.

A refrigerator appliance and heating assembly, as provided herein, may include a sheath, a resistive wire, and a hydrophobic layer. The sheath may define an enclosed volume along a length between a first end portion and a second end portion. The resistive wire may be disposed within the enclosed volume to generate heat in response to an electrical current. The hydrophobic layer may be formed on the sheath along the length from the first end portion to the second end portion.

A moisture permeable device and refrigerator having the same; the moisture permeable device includes a corresponding first surface (110) and second surface (111); at least parts of the first surface (110) and the second surface (111) of the moisture permeable device define a hollow cavity (301); through-holes are provided at regions of the first surface (110) and the second surface (111) of the moisture permeable device defining the cavity (301); and regenerated cellulose is accommodated in the cavity (301). A manufacturing method of the moisture permeable device comprises pouring a regenerated cellulose slurry with a tackifier added thereto into the cavity (301) to form a moisture permeable film, thus allowing omission of an assembling procedure and a non-woven support.