Savcor Cathodic Protection 

The corrosion resistance of stainless steels is based on a protective oxide film forming the metal surface. This natural passive film is not resistant to attack by chlorides in warm oxidizing electrolytes. Chloride breaks the surface film, causing a potential difference between the more noble oxide film and the less noble base metal at the exposed spots. The potential difference gives rise to corrosion current.

In cathodic protection, opposite current is applied to the metal structure with a rectifier and anodes. In mild steel structures,  steel will be driven by external current of a cathodic protection system to a status of immunity against corrosion whereas stainless steel will be maintained in a region of perfect passivity.

Savcor Cathodic Protection consist of
- anodes made of very noble metal, like titanium oxide
- reference electrodes which measure the potential level
- rectifiersfor supply of cathodic protection current
- data processor unit for accurate current feed
- system software with correct responses for changes of environment
- remote monitoring center

Cathodic Protection for Marine Structures

Savcor Cathodic Protection Extends the Life Time of Marine Steel Structures

Cathodic Protection can be applied to any metallic structure that is in contact with an electrolyte. Cathodic Protection is commonly used in structures such as wharfs, jetties, ship hulls, foundation of offshore wind mills, offshore oil drilling platforms and exterior of pipelines buried in soil or water. Especially, corrosion of steel piles and steel sheet piles buried in a corrosive soil or immersed in water can be stopped by installing a properly designed and engineered Cathodic Protection System.

Cathodic Protection for Concrete 

Savcor Cathodic Protection stops Corrosion of Concrete Structures 

Chloride ingress from de-icing salt or sea water will lead to an increased risk of corrosion. Once chlorides have destroyed the protective oxide layer from steel surface, corrosion will initiate leading to material loss. Corrosion products which take more space than original rebar, will eventually cause cracks in concrete and later spalling of concrete.

Cathodic Protection (CP) is a well-known and proven method to extend the service life of the reinforced concrete structures in case of chloride contaminated concrete corrosion. Cathodic Protection is usually applied during the building process or the ordinary concrete repairs. Cathodic Protection System in concrete consist of external DC power source, non-soluble anodes, cabling, reference electrodes and a control unit.

All the damaged concrete need to be removed before system installation. The cathodic protection system stops the corrosion progress but it does not repair already deteriorated structure. The CP installation is usually installed together with the repair work. 

Savcor Cathodic Protection for Pulp Industry

Savcor Cathodic Protection for Pulp Industry

The protection current of a Cathodic Protection is fed of from the rectifiers to the metal surface through the anodes immersed into the process liquid. Cathodic current creates a passive oxide layer on the surface of e.g. stainless steel and makes it corrosion resistant, even in the harshest environments. General-, crevice-, pitting- and stress corrosion cracking can be prevented by Savcor Cathodic Protection. When installed into an old equipment, cathodic protection stops corrosion already in action.
The bleaching filters in the pulp industry are typical examples of the equipment where corrosion can be prevented by Cathodic Protection. The rotating filter drum is a very expensive part of the filter that greatly benefits from CP. Naturally also the inlet vat and the filter vat will be protected to prevent leaks.

In the process industry, all sorts of chemicals are stored e.g. in stainless steel tanks and vessels. Every now and then the process conditions change to more aggressive and the tank begins to corrode. Process temperatures can increase or the concentration of aggressive ions such as chlorides are getting higher when the water circulation becomes more closed. Instead of replacing a corroding tank with a more noble and expensive material or lining it with some corrosion resistant coating, the most cost effective solution is to install a CP System. Usually the installation is very fast and the down-time is much less than in any coating application or overlay welding.

 Heat exchangers used for cooling or heating also corrode. If the corrosion problem is on the liquid side, there is a possibility of utilizing Savcor CP. The steam side lacks the conducting electrolyte and a CP is not an option.