An electrolysis device is provided. The electrolysis device includes a plurality of electrolysis cells that are electrically connected in series and are arranged successively at least partly in a stack direction, where the series connection is electrically couplable to an electrical energy source. The electrolysis device also includes a cell supply unit for supplying the electrolysis cells with at least one operating material and supply conduits connected to the cell supply unit and to opposite ends of the successively arranged electrolysis cells, where a negative electric potential of the electrical energy source is electrically couplable to an electric reference potential of the cell supply unit.

A cathodic protection unit (12) utilizes a signal generated by a conducting wire (14) inserted into a clamp body (16) after the clamp (16) is attached to a pipe (P). The wire (14) wraps a complete number of turns around the clamp structure. When the clamp is attached to the exterior of the pipe (P), the conducting wire (14) makes contact with the pipe (P) via a slight clamping pressure. Analyzing two signals generated by separate conducting wires (14) are used for cathodic protection.

A cathodic protection unit (12) utilizes a signal generated by a conducting wire (14) inserted into a clamp body (16) after the clamp (16) is attached to a pipe (P). The wire (14) wraps a complete number of turns around the clamp structure. When the clamp is attached to the exterior of the pipe (P), the conducting wire (14) makes contact with the pipe (P) via a slight clamping pressure. Analyzing two signals generated by separate conducting wires (14) are used for cathodic protection.

Corrosion protection of steel in concrete is provided by locating an anode assembly including both a sacrificial anode and an impressed current anode in contact with the concrete and providing an impressed current from a power supply to the anode. The impressed current anode forms a perforated sleeve surrounding a rod of the sacrificial anode material with an activated ionically-conductive filler material between. The system can be used without the power supply in sacrificial mode or when the power supply is connected, the impressed current anode can be powered to provide an impressed current system and/or to recharge the sacrificial anode from sacrificial anode corrosion products.

Corrosion protection of steel in concrete is provided by locating an anode assembly including both a sacrificial anode and an impressed current anode in contact with the concrete and providing an impressed current from a power supply to the anode. The impressed current anode forms a perforated sleeve surrounding a rod of the sacrificial anode material with an activated ionically-conductive filler material between. The system can be used without the power supply in sacrificial mode or when the power supply is connected, the impressed current anode can be powered to provide an impressed current system and/or to recharge the sacrificial anode from sacrificial anode corrosion products.

A device for cathodic protection (100) arranged to provide an impressed current cathodic protection of a metal element (10) configured to be immersed in an electrolytic environment. The device for cathodic protection (100) comprises a container body (110) comprising an inner chamber (111) and at least one conductive interface (115) arranged to be electrically connected to the metal element (10), an anode (120) integral to the container body (110) and having a portion which faces externally with respect to the container body (110), a reference electrode (130) integral to the container body (110) and having a portion which faces externally with respect to the container body (110), a direct current source (140) disposed in the container body (110) and comprising a negative pole, electrically connected to the conductive interface (115), and a positive pole, electrically connected to the anode (120), a control unit (150) disposed in the container body (110) and configured to measure an electric voltage ?V between the conductive interface (115) and the reference electrode (130) when the device for cathodic protection (100) is immersed in an electrolytic environment. In particular, the device for cathodic protection (100) is configured in such a way that, when the control unit (150) detects an electric voltage ?V>?V*, where ?V* is a predetermined threshold value, the direct current source (140) supplies an electric current I between the conductive interface (115) and the anode (120) such as to restore a condition ?V<?V*.

The invention relates to an electrolysis device including a plurality of electrolysis cells which are electrically connected in series and which are arranged at least partly successively in a stacking direction in a cell stack, where the series connection can be electrically coupled to an electrical energy source. A cell supply unit for supplying at least one operating medium to the electrolysis cells in normal operation and supply lines connected to the cell supply unit and to the cell stack, where a material of the supply lines include metal. The supply lines are connected to a first end of the cell stack so that the first end of the cell stack is electrically coupled to the cell supply unit, where the first end of the cell stack can be coupled to a negative electrical potential of the electrical energy source.

A cathodic protection system for use with a wood veneer dryer is provided. The system includes a DC power supply and an anode mounted inside the dryer in a position to be electrolytically coupled to metallic structures or surfaces inside the dryer when an electrolytic medium is present inside the dryer. The electrolytic medium comprises a high-humidity atmosphere. A method for reducing the corrosion of metallic structures or surfaces inside the dryer is further provided. The method comprises mounting an anode inside the dryer in a position to be electrolytically coupled to the metallic structures or surfaces inside the dryer when an electrolytic medium is present. Wood veneer is conveyed through the dryer and heated to a temperature sufficient to produce a high-humidity atmosphere inside the dryer. A controlled amount of current is supplied by the DC power supply to electrolytically couple the anode to the metallic structures or surfaces.

A cathodic protection system for use with a wood veneer dryer is provided. The system includes a DC power supply and an anode mounted inside the dryer in a position to be electrolytically coupled to metallic structures or surfaces inside the dryer when an electrolytic medium is present inside the dryer. The electrolytic medium comprises a high-humidity atmosphere. A method for reducing the corrosion of metallic structures or surfaces inside the dryer is further provided. The method comprises mounting an anode inside the dryer in a position to be electrolytically coupled to the metallic structures or surfaces inside the dryer when an electrolytic medium is present. Wood veneer is conveyed through the dryer and heated to a temperature sufficient to produce a high-humidity atmosphere inside the dryer. A controlled amount of current is supplied by the DC power supply to electrolytically couple the anode to the metallic structures or surfaces.

An anode system for cathodic corrosion protection should be able to be laid in a simple, quick and cost-effective manner. For this purpose, a method comprising the following steps is provided: laying a carbon fibre multifilaments in a planar and meandering or strip-shaped manner; laying at least two primary anode ribbons, which are arranged so as to be spaced apart from one another, such that the carbon fibre multifilament is arranged between the primary anode ribbons and the primary anode ribbons are connected to the carbon fibre multifilament in an electrically conductive manner in a number of contact regions.