There is disclosed a condensate drain, comprising: a body defining a drain chamber having a liquid-gas inlet and a liquid outlet; and a porous membrane having a pore size of about 0.2 m or less disposed within the body between the liquid-gas inlet and the liquid outlet; wherein in use, the porous membrane permits liquid to pass therethrough but restricts the passage of gas.

There is disclosed a condensate drain, comprising: a body defining a drain chamber having a liquid-gas inlet and a liquid outlet; and a porous membrane having a pore size of about 0.2 m or less disposed within the body between the liquid-gas inlet and the liquid outlet; wherein in use, the porous membrane permits liquid to pass therethrough but restricts the passage of gas.

A conduit fitting for an exhaust duct includes a conduit and a condensate trap. The conduit fitting defines an interior space partitioned into an upper conduit and a lower condensate reservoir. The condensate reservoir can be configured to contain a neutralizing agent for neutralizing acidic condensate prior to it exiting the reservoir.

The invention relates to a liquid separator (100), in particular for a fuel cell device, the liquid separator (100) comprising the following: a fluid-conducting channel (104), a collection region (106) for collecting liquid originating from a fluid that is conducted in the fluid-conducting channel (104), a liquid passage (110) branching off from the fluid-conducting channel (104) and a liquid collection region (112) into which the liquid passage (110) leads.

The invention relates to a liquid separator (100), in particular for a fuel cell device, the liquid separator (100) comprising the following: a fluid-conducting channel (104), a collection region (106) for collecting liquid originating from a fluid that is conducted in the fluid-conducting channel (104), a liquid passage (110) branching off from the fluid-conducting channel (104) and a liquid collection region (112) into which the liquid passage (110) leads.

A device for separating liquid from gas including: a fluid inlet configured to receive a fluid that includes a liquid and a gas; a gas outlet; a deflector positioned between the fluid inlet and the gas outlet, the deflector obstructing a path from the fluid inlet to the gas outlet; and a liquid channel adjacent to a liquid outlet; wherein the deflector is configured to deflect the liquid to the liquid channel; wherein the liquid deflected to the liquid channel exits the device through the liquid outlet; and wherein the gas flows around the deflector and exits the device through the gas outlet.

A device for separating liquid from gas including: a fluid inlet configured to receive a fluid that includes a liquid and a gas; a gas outlet; a deflector positioned between the fluid inlet and the gas outlet, the deflector obstructing a path from the fluid inlet to the gas outlet; and a liquid channel adjacent to a liquid outlet; wherein the deflector is configured to deflect the liquid to the liquid channel; wherein the liquid deflected to the liquid channel exits the device through the liquid outlet; and wherein the gas flows around the deflector and exits the device through the gas outlet.

An orifice condensate trap (i.e. a condensate removal device (10) having a condensate drainage channel (26) with a constricted passage (30) therein) in which a magnet (50) is disposed upstream of the orifice to capture impurities, e.g. magnetic particles, suspended or otherwise carried in the condensable gas or condensate. The magnet may be used in tandem with a mechanical filter, e.g. strainer. The magnet may be formed as part of a cap or plug (48) for closing an access opening (36) opposite to an upstream opening of the constricted passage (30). For example, the plug (48) may be formed of magnetic material, e.g. a magnetic variant of stainless steel.

An orifice condensate trap (i.e. a condensate removal device (10) having a condensate drainage channel (26) with a constricted passage (30) therein) in which a magnet (50) is disposed upstream of the orifice to capture impurities, e.g. magnetic particles, suspended or otherwise carried in the condensable gas or condensate. The magnet may be used in tandem with a mechanical filter, e.g. strainer. The magnet may be formed as part of a cap or plug (48) for closing an access opening (36) opposite to an upstream opening of the constricted passage (30). For example, the plug (48) may be formed of magnetic material, e.g. a magnetic variant of stainless steel.

A check valve includes an internal liquid trap that prevents the backflow of gas and debris from degrading the valve. The internal liquid trap can be formed by internal passages within a valve housing. One embodiment includes three internal passages, an inlet passage, an intermediate passage, and an outlet passage, with connecting passages between each of the inlet passage and outlet package, and the intermediate package. In some embodiments, an internal trap is provided between the intermediate passage and the inlet passage.