A method for environmentally managing a computing device of an information handling system includes monitoring an environmental corrosion risk associated with a component of the computing device, a corrosion management component that reduces a rate of corrosion of the component due to an ambient environment in which the component resides by removing condensation from the component is associated with the component; making a determination that the component is associated with the corrosion management component; in response to the determination: estimating a corrosion risk of the component based on: the environmental corrosion risk, and a risk reduction factor associated with the corrosion management component; making a second determination that the corrosion risk of the component indicates a premature failure of the component; and remediating, in response to the second determination, the corrosion risk of the component.

An information handling system includes a computing device, a computing component of the computing device that is housed in a chassis, and a chilled air filter that reduces a humidity level of a portion of an airflow when the chilled air filter is in an active state. The portion of the airflow thermally manages the computing component. The airflow is received by the chassis via an air receiving exchange and exhausted by the chassis via an air expelling exchange.

An information handling system includes a computing component that is sensitive to corrosion; and a chassis in which the computing component is disposed. The chassis receives an airflow used to thermally manage the computing component, and expels the airflow after thermally managing the computing component. The information handling system also includes an environmental control component that reduces a condensation formation propensity of a portion of the airflow that traverses the chassis proximate to the computing component.

A portable dehumidifying chamber includes a frame of a structure configured to include a first zone, a second zone, and a third zone, where a plurality of exterior walls coupled to the frame of the structure isolate the first zone, the second zone, and third zone from surrounding environmental conditions. A heating device disposed in the first zone to facilitate heated air flow from the first zone to the third zone, where the heated air flow contacts an object disposed in the second zone to facilitate dehumidification of the object. A conduit connecting the third zone to the first zone, where the conduit allows for humidified air flow to bypass the second zone, where the conduit includes a moisture removing apparatus. A first vapor barrier material separates the first zone and the second zone and a second vapor barrier material separates the second zone and the third zone.

A vehicular glass module (1) includes a vehicular window glass (2) having a conductive pattern (4) formed thereon and an on-glass connector (3) attached to the vehicular window glass (2). The on-glass connector (3) includes a hollow portion (11) and a circuit board (6) disposed in the hollow portion (11). The hollow portion (11) is in communication with an outside of the case (5) via a through hole (15) provided in a partition wall (14) defining a part of the hollow portion (11). The through hole (15) is positioned lower than the circuit board (6). The water generated in the hollow portion (11) by condensation is discharged to the outside via the through hole (15).

An electronic device includes a display panel including a display surface on a front; a front panel surrounding the display panel; a circuit board that is disposed on a front side of a lower portion of the display panel and housed in the front panel; and a holder provided between the front of the display panel and a back of the circuit board. The holder includes a plurality of grooves each continuously extending in an up-down direction on a back of the holder facing the front of the display panel. The plurality of grooves are formed so as to be connected to each other. The front panel is formed with a through hole facing lower ends of the grooves.

A computing device of an information handling system includes a hardware component. The hardware component is also connected to a trace. The computing device also includes a corrosion management component that is physically connected to the trace. The corrosion management component reduces a rate of corrosion of the trace due to an ambient environment in which the trace resides. The corrosion management component reduces the rate of corrosion by applying an electrical potential to the trace.

A method for heating an electrical bus in an electrical cabinet containing at least one current conversion device includes determining a temperature inside of the electrical cabinet. The method also includes determining a temperature outside of the electrical cabinet. Further, the method includes applying heat to the electrical bus via conduction when the temperature outside of the electrical cabinet is below a predetermined temperature threshold or a difference between the temperature inside of the electrical cabinet and the temperature outside of the electrical cabinet is less than a desired temperature difference.

An environmental system protects internal components of a data center from condensation due to exposure to outside air. An environmental controller of the environmental system monitors sensor(s) that detect an outside temperature value and an outside humidity value of the outside air and an interior air temperature value of the data center. The environmental controller identifies an external access request to open an access door that exposes heat-generating IT component(s) within the data center to outside air. Based on the outside and the interior air temperature values and the outside humidity value received from sensor(s), the environmental controller determines that a dew point temperature of the outside air is greater than the interior air temperature. In response, the environmental controller increases a temperature set point of the cooling system to a first temperature value that increases the interior air temperature above the dew point temperature of the outside air.

Electronic module comprising a protective casing defining an internal volume and an electronic board placed in the internal volume, the electronic module comprising: means, for detecting a predetermined environmental condition of the internal volume, means for generating a cool zone inside the internal volume, which means are arranged such that the cool zone is separated from the electronic board; a control unit that is linked to the means for detecting an environmental condition and to the means for generating a cool zone and arranged to trigger the means for generating a cool zone when the means for detecting a predetermined environmental condition in the internal volume detect an environmental condition that is liable to result in the moisture in the air contained in the internal volume condensing on the electronic board.