NO124591B - - Google Patents

Description

Device for cathodic protection of a ship's metal cladding against corrosion.

This invention relates to a device for cathodic protection of the under

part of a ship's metal cladding lying on the surface of the water or protruding metallic parts

out of this against corrosion, using a

direct current source, whose negative pole is connected to the ship's cladding and whose positive pole

pole is connected to a submerged electrode which is towed behind the ship and which is

electrically isolated from this.

Devices with permanently arranged electrodes are previously known. In such cases, the positive electrode (anode) consists of a

body (a conductor or semi-conductor) which is

attached to and isolated from the ship's cladding.

However, such devices suffer from it

disadvantage that the ship must be docked for assembly, inspection and possible replacement

of the electrode (or electrodes).

Another disadvantage is that it is difficult to achieve an even distribution of the electric field in the water around the ship. In every

fall, the cladding must be around and in the vicinity of

the anode(s) are supplied with an insulating field to achieve the required

spread of the electric field and to

avoid the difficulties that come with it

too strong local current density. Producing and maintaining the aforementioned isolation field is in itself a rather large task

disadvantage.

Also previously known is a protection device with an electrode body which

is isolated from the ship and which is towed behind

this. As a towing cable, a well-insulated wire is used that connects the electrode to it

electrical power source on board. Such an electrode provides a large resistance when the ship is

at speed, and the tow cable must therefore be dimensioned correspondingly strong.

However, a strong towline laid out from the ship's stern has the disadvantage that during maneuvering it can become entangled in the ship's propeller and cause serious damage or at least a significant reduction in speed.

The purpose of the invention is to avoid the aforementioned disadvantages and the invention is distinguished by the fact that the positive electrode is made up of the towing wire itself, or a bundle of uniform and homogeneous wires which are designed to be laid out as they wear away.

In this context, "thread" is to be understood as a very thin material which also includes ribbons, strips etc. 1.

According to the invention, the towing wire must be made with such a low breaking strength that, even if it were to wrap around the propeller, it would hardly be able to cause damage or other disadvantages. It has been concluded that the breaking strength of the thread must therefore not be greater than, e.g. 270 kg (the breaking strength of a normal log cable is approx. 320 to 410 kg).

When the towing wire or wires according to the invention are laid out from the ship's side, for reasons of symmetry it is necessary to lay out one or more wires on both sides of the ship so that an even electric field is formed. Experiments have shown that it will generally be sufficient to lay out one tow wire from the ship's stern from a place located in or close to the ship's central plane of symmetry. In this way, a uniform electric field is formed around the entire part of the ship that is under water, so all disadvantages in connection with parts that protrude from the ship in the lateral direction are avoided.

It must be ensured that, in addition to low breaking strength, the wire also has good electrical conductivity. It follows that aluminum or aluminum alloys are particularly suitable as wire material for the purpose. Aluminum also has the advantage that this metal in trivalent form means that the weight loss per amps per unit of time becomes very small.

It is clear that with this electrolytic protection system it is possible to periodically reverse the current direction in order to counteract polarization of the underwater parts of the ship.

The invention shall be explained by an example with reference to the drawing, where fig. 1 schematically shows the stern of a ship which is equipped with the device according to the invention, and fig. 2 the build-up of the electric field during use of the device.

In fig. 1 is the ship's cladding to be protected, denoted by 1. The parts that must be protected at the same time are the rudder 2, the rudder 3 and the propeller 4. The electrical connection between the propeller and the ship's cladding is provided by means of a set of brushes 16 which drag on a slip ring on the propeller shaft. Such a device is necessary because the propeller shaft is usually isolated from the ship's cladding. The insulation consists of a thin layer of oil which, during shaft rotation, is present in the shaft bearing between the propeller shaft and the bearing cups.

A winch 5 is arranged at the stern, which is isolated from the ship and has a coil of aluminum wire 6 with approx. 6 mm diameter. The wire is laid out so that approximately 41 m of it is above the water during speed, while approximately 9 m drags in the water. The latter part of the wire will be eroded evenly from the end, and the loss is replaced by laying out more wire from the winch 5. A knife 7 can be placed immediately behind the winch, which cuts the wire if it gets lost in the propeller and is thus pulled towards the knife .

As the wire is made of soft aluminium, it will practically not be able to cause any damage to the hull or other parts of the ship.

In fig. 2 is the part of the wire that is in the water, denoted by 21 and the lines of force by 22.

A converter installed on the ship serves as a direct current source, comprising an electric motor 10 connected directly to a low-voltage generator 11. The motor receives power from the ship's mains. The generator 11 supplies low-voltage current that can be regulated between 0 and 25 V and with a maximum amperage of 250 A. The voltage and amperage can be read on a voltmeter 12 and an ammeter 13.

The positive pole of the generator 11 is a wire 14 connected with aluminum wires;

which is wound on the winch 5; the negative pole is over a connection 15 connected to the hull.

When the device is in operation, a certain potential difference will be maintained between the ship and a submerged comparison electrode (e.g. copper, copper sulphate electrode). The ship's potential in relation to the comparison electrode must be between — 800 and — 850 mV. If the potential difference exceeds e.g. — 900 mV the protection becomes (too effective) and causes the evolution of hydrogen and the formation of alkali-potassium hydroxide, which can result in the paint or other protective covering separating from the cladding and a deposit shell forming. The amperage in the aluminum wire must therefore be adjusted so that the desired potential difference is maintained.

The potential difference is measured at regular intervals at various locations along the ship using a suitable potentiometer and a comparison electrode which is immersed in water during the measurement.

The required amperage in the wire is set by hand. However, it is also possible to set the amperage automatically, e.g. by means of a suitable control device which cooperates with a comparison electrode or electrodes fixed to the ship's hull.

Claims (3)

1. Device for cathodic protection of the part of a ship's metal cladding lying below the surface of the water or metallic parts protruding from the cladding, against corrosion by means of an electric direct current source whose negative pole is connected to the ship's cladding and whose positive pole is connected to a submerged electrode which is towed after the ship and is electrically isolated from it, characterized in that the electrode is made up of the tow wire itself or a bundle of completely uniform or homogeneous tow wires which are arranged to be laid out as they wear away. 2. Device according to claim 1, characterized in that each tow wire has a breaking strength of less than 270 kg. 3. Device according to claim 1 or 2, characterized in that the towing wire or wires consist of aluminum or an alloy with a high aluminum content. Publications cited: German Patent No. 57,293.