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.

A compartment comprising at least one target area susceptible to condensed water formation includes at least one condensed water collector is presented. The condensed water collector comprises at least a first portion arranged to collect condensed water from the at least one target area and at least a second portion outside of the at least one target area. A porous material is arranged between the first portion and the second portion. The condensed water collector is configured to transport the collected condensed water. The compartment further including a condensed water remover configured to remove condensed water from the second portion thereby facilitating transportation of condensed water from the first portion to the second portion via the porous material.

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 compartment comprising at least one target area susceptible to condensed water formation includes at least one condensed water collector is presented. The condensed water collector comprises at least a first portion arranged to collect condensed water from the at least one target area and at least a second portion outside of the at least one target area. A porous material is arranged between the first portion and the second portion. The condensed water collector is configured to transport the collected condensed water. The compartment further including a condensed water remover configured to remove condensed water from the second portion thereby facilitating transportation of condensed water from the first portion to the second portion via the porous material.

A compartment comprising at least one target area susceptible to condensed water formation includes at least one condensed water collector is presented. The condensed water collector comprises at least a first portion arranged to collect condensed water from the at least one target area and at least a second portion outside of the at least one target area. A porous material is arranged between the first portion and the second portion. The condensed water collector is configured to transport the collected condensed water. The compartment further including a condensed water remover configured to remove condensed water from the second portion thereby facilitating transportation of condensed water from the first portion to the second portion via the porous material.

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 water-removing system comprises a water reservoir pan, a wicking pad array, and a hot pipe. The water reservoir pan is configured for collecting water from an evaporator of the refrigerator. The wicking pad array comprises wicking pads, and each of wicking pads is disposed in a direction of air flow from the fan motor to the wicking pads, so that lower portions of the wicking pads are immersed in the water reservoir pan. The hot pipe is disposed so as to contact with the wicking pads of the wicking pad array above a surface of water collected from the evaporator. The water from the evaporator is absorbed by the wicking pads and evaporated further by heat from the hot pipe.

A refrigerator appliance is provided. The refrigerator appliance includes features for increasing humidity of an atmosphere about the refrigerator appliance. A method for operating a refrigerator appliance is also provided. The method includes measuring a relative humidity of air about the refrigerator appliance and operating a humidifier of the refrigerator appliance if the relative humidity of air about the refrigerator appliance is less than a reference value.

The present invention relates to a cooling and/or a freezing device comprising a cooled inner chamber (100) and a thermoelectric element (20), particularly a Peltier element (20), which is arranged such that the inner chamber (100) is cooled by means of the thermoelectric element (20), means (4, 20, 40) for evaporating the condensed water being provided comprising a heat exchanger (40) located outside of the cooled inner chamber (100).

A compartment comprising at least one target area susceptible to condensed water formation includes at least one condensed water collector is presented. The condensed water collector comprises at least a first portion arranged to collect condensed water from the at least one target area and at least a second portion outside of the at least one target area. A porous material is arranged between the first portion and the second portion. The condensed water collector is configured to transport the collected condensed water. The compartment further including a condensed water remover configured to remove condensed water from the second portion thereby facilitating transportation of condensed water from the first portion to the second portion via the porous material.