The invention relates to a distributor structure (12, 20), particularly a bipolar plate for a stack structure (10) of a fuel cell or of an electrolyser. The distributor structure (12, 20) comprises a channel structure (48) that interacts with at least one polymer membrane (16). The distributor structure (12, 20) is designed as a plastic part (40) that has electrically conductive properties.

The invention relates to a distributor structure (12, 20), particularly a bipolar plate for a stack structure (10) of a fuel cell or of an electrolyser. The distributor structure (12, 20) comprises a channel structure (48) that interacts with at least one polymer membrane (16). The distributor structure (12, 20) is designed as a plastic part (40) that has electrically conductive properties.

A multi-chamber assembly safely stores enhancement gas for efficient and complete combustion of a carbonaceous fuel is presented. The multi-chamber assembly safely stores the enhancement gas, for example, for use by the internal combustion engine such as an internal combustion engine of a vehicle and/or a generator.

A multi-chamber assembly safely stores enhancement gas for efficient and complete combustion of a carbonaceous fuel is presented. The multi-chamber assembly safely stores the enhancement gas, for example, for use by the internal combustion engine such as an internal combustion engine of a vehicle and/or a generator.

A system for efficient combustion of a carbonaceous fuel is presented. An ultra low quantity of enhancement gas may be introduced to an internal combustion engine to improve at least one operating metric of the internal combustion engine such as fuel economy and/or reduce engine-out emissions, for example in a vehicle or generator.

A system for efficient combustion of a carbonaceous fuel is presented. An ultra low quantity of enhancement gas may be introduced to an internal combustion engine to improve at least one operating metric of the internal combustion engine such as fuel economy and/or reduce engine-out emissions, for example in a vehicle or generator.

An electrolysis device includes two stacks (1) whose electrolysis cells (2) are clamped between an end plate (7) which has an exclusively mechanical function, and an end plate (6) which also serves for feeding in the reactant, the coolant and the discharge of the reaction products and the coolant. The two stacks (1) with regard to their polarity are constructed in a reverse manner and are connected in series in a manner such that the connection-leading end plates (6) and herewith also their connections are subjected to the same potential on operation.

A dual-chamber electrolysis vessel safely stores HHO gas for use by an internal combustion engine.

A dual-chamber electrolysis vessel safely stores HHO gas for use by an internal combustion engine.

An electrolytic ozone generator includes an anode with a longitudinal edge, a cathode with a longitudinal edge spaced apart from the cathode, and an isolator. The isolator electrically separates the cathode from the anode and is semi-impermeable. The anode and cathode are impermeable for generating ozone in a flow area fluidly coupling longitudinal edges of the anode and the cathode. Ozone water apparatus, methods of making electrolytic ozone generators, and methods of generating ozone using electrolytic ozone generators are also described.