cathodic protection system tagged posts

How Cathodic Protection Effectively Prevents Metal Corrosion

February 9, 2015 Marine Engineering  No comments

Cathodicme

Cathodic protection is a common technique that’s used to control the corrosion of metal surfaces by enabling it to operate in the form of a cathode regarding an electrochemical cell. In general, testing for cathodic protection is a very good option to implement in order to fully protect steel, oil platforms, ships, pier piles that consist of steel, storage tanks, fuel pipelines, and water pipelines. The technique is also used to reduce cracking or stress corrosion.

 

How Cathodic Protection Prevents Metal Deterioration

In order to successfully prevent metal deterioration and corrosion, UST (underground storage tanks) testing must be run on a regular basis so as to avoid these key accidents. In fact, UST compliance testing is a popular alternative to prevent metal corrosion. Because underground pipes, metal, storage tanks, tubes, and connectors are positioned deep within the ground, they often make contact with the soil, and thus can trigger the corrosion process. If not properly treated early on, the results can be disastrous in terms of significant and widespread deterioration. However, by appropriately using a direct electricity current in order to limit any kind of corrosive action from occurring, key cathodic protection testing measures will effectively address and tackle any metal deterioration in such a way that enables the underground storage tank to remain safely intact and free from corrosion. Learn more at www.cathodicme.com.

Cathodicme-protection

Cathodicme Protection

 

In order to facilitate the constant battle with these ongoing problems or avoiding them altogether, organisations need to search and find a favourable and efficient provider for UST compliance testing. Because providers of UST compliance testing frequently undergo fuel inspections, leak detections, and offer solutions for fuel infiltration, individuals can rest easy knowing that their petroleum systems are working very smoothly and effectively. Experts in corrosion ensure that there aren’t any disruptions with cathodes and verify that the protection systems followed are beneficial as well foolproof. Checking the system once every 60 days is necessary since it will ensure overall stability concerning your products along with systems performance. Overall, cathodic protection testing allows your organisation to start a successful process of regular equipment maintenance.

 

Cathodic protection testing entails following vital and necessary ways of operating, including conducting frequent surveys to make sure that the system installed is actually authentic. Also, they offer the most cost effective ways to save on expenses for upkeep and ongoing maintenance. Other inspection surveys regarding UST corrosion and leak detection of underground storage tanks are additionally addressed. If petroleum corporations can continue to work towards a systematic check on their products, devices, and other necessary equipment, they’ll be rest assured of having well-performing and highly protected storage tanks.

 

When addressed with detailed and thorough inspections, all difficulties can be avoided. In order to achieve success, you must find a good and suitable provider for UST compliance testing in order to effectively offset the current problems you’re facing right now and to avoid any future issues as well. Learn more at www.cathodicme.com in order to understand everything you need to know about the way cathodic protection works and how it can help your UST systems to remain in good working order.

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Cathodic Protection Systems

June 3, 2013 Marine EngineeringTechnology

A cathodic protection system, such as those available at http://www.cathodicme.com, is a method for using sacrificial metal in order to protect other metal from corrosion.

What is Cathodic Protection? 
Corrosion of metal occurs not because of water itself but rather the electric current in the water. For submerged metal, this current is ever present, so it requires a full-time solution. This is where the concept of sacrificing comes in to play. A sacrificial anode is more reactive to the potential corrosion than the metal it’s protecting. The sacrificial anode attracts the current, corrodes and is eventually replaced when it is no longer able to perform. Cathodic protection (CP) is a method of using sacrificial metal to act as an anode. CP is used on large-scale projects where regular replacement of a sacrificial anode is not a simple or inexpensive endeavor.

 

What is a Cathodic Protection System? 
In many industrial and marine scenarios where CP is necessary, the scope of the need is very large. In these cases, a cathodic protection system (CPS) is used rather than a standalone CP solution. By designing a CPS for a specific endeavor, engineers are able to reduce long-term costs and limit the amount of long-term maintenance. In some cases, it’s possible to create a CPS that will last just as long as the length of the project and can then be discarded. In the cases of pipelines, for instance, the engineers must design a CPS that can itself be maintained and upgraded over the long term and in an efficient manner.

Types of Systems 
There are two main types of CPS: galvanic and impressed current systems. Galvanic protection is passive CP. Galvanic anodes are used because they are more electrochemically active than the metal they’re being attached to. These simple, sacrificial anodes are not suitable for large-scale solutions, particularly when electrolyte resistance is high (also learn about Types of Sacrificial Anodes for Boats). In these cases, impressed current systems are used, and they’re made up of anodes that are attached to a DC power source.

Sacrificial Anode

Sacrificial Anode

 

Swift Boat Sacrificial Anodes

Swift Boat Sacrificial Anodes

 

Real-World Applications 
Perhaps the most common large-scale usage for CP is underwater pipelines. In these scenarios, there are actually bigger concerns than the pipes themselves. If the pipes corrode, then it can, for instance, allow oil to flow freely into the ocean. CP is also used to protect the hulls of ships. On land, CP is used to protect steel in concrete and to protect exposed galvanized steel.

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