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Design and installation of cathodic protection system using zinc anode

 

Table Of Contents


Project Abstract

Abstract
Cathodic protection is a widely used technique to prevent corrosion of metal structures by making them the cathode of an electrochemical cell. Zinc anodes are commonly used in cathodic protection systems due to their efficient sacrificial protection properties. This research project focuses on the design and installation of a cathodic protection system using zinc anodes to protect metal structures from corrosion. The design phase involves determining the appropriate size and number of zinc anodes required to provide sufficient protection to the structure. Factors such as the surface area of the structure, the corrosivity of the environment, and the desired service life of the system are considered in the design process. Computer modeling and simulations are often utilized to optimize the design and ensure effective protection. The installation of the cathodic protection system involves securely attaching the zinc anodes to the structure in strategic locations. Proper electrical connections are made to ensure a continuous flow of current from the anodes to the structure, creating the necessary cathodic protection effect. Monitoring equipment is often installed to track the performance of the system and make any necessary adjustments over time. Regular maintenance and monitoring of the cathodic protection system are essential to ensure its continued effectiveness in preventing corrosion. Inspections are conducted to check the condition of the zinc anodes and the overall performance of the system. If any issues are identified, corrective actions are taken promptly to avoid any compromise to the protection of the structure. Overall, the design and installation of a cathodic protection system using zinc anodes require careful planning, expertise, and attention to detail. When implemented correctly, this system can significantly extend the service life of metal structures and reduce maintenance costs associated with corrosion. By protecting critical infrastructure such as pipelines, storage tanks, and marine structures, cathodic protection systems play a vital role in ensuring the integrity and safety of various industries.

Project Overview

INTRODUCTION

1.1 Background of study

Cathodic protection (CP) is a method of controlling corrosion or a means of preventing corrosion of metal and can be applied to any buried and/or submerged metallic structures. It is normally used in conjunction with coatings and can be considered as a secondary corrosion control technique.

Cathodic protection can, in principle, be applied to any metallic structure in contact salty media (electrolyte). In practice its main use is to protect steel structures buried in soil or immersed in water. Structures commonly protected, includes:

    Cross country pipelines

    Exterior surfaces of pipelines immersed in water

    In plant piping

    Above ground storage tank bases

    Buried tanks and vessels

    Internal surfaces of tanks, vessels, condensers and pipes

    Well casings

    Foundation piling, steel sheet-piling

    Piling – tubular, sheet steel and foundation

    Marine structures including jetties, wharfs, harbours, piers

    Ships, hulls

    offshore platforms

    Reinforcing steel in concrete

Corrosion is a very serious problem. Three areas in which corrosion are important are in economic, improved safety and conservation of resources. The leakage of hazardous materials from a transport pipeline represents not only the loss of natural resources but also the potential for serious and dangerous environmental impact, and human fatalities. While pipelines are designed and constructed to maintain their integrity, diverse factors (e.g., corrosion) make it difficult to avoid the occurrence of leakage in a pipeline system during its lifetime.

All metals needs energy to be transformed from their oxide (natural) state to a refined state. The process of taking this energy away from the metal is called corrosion. Metals tend to revert back to their natural state when reacting with the environment. This corrosion reaction that occurs is an oxidation-reduction reaction. The purpose of cathodic protection is to stop this corrosive process.

Cathodic protection is the most important of all approaches to corrosion control techniques. One of the types of cathodic protection is sacrificial anode or galvanic cathodic protection. Corrosion occurs through the loss of the metal ions at anodic area to the electrolyte. Cathodic areas are protected from corrosion because of the deposition of hydrogen or other ions that carry current (Sandoval, A., et.al 2001). By using the sacrificial anode technique, the steel pipe will be protected from corrosion but the other metal which is the anode will corrode. In designing this method we must analyze parameters such as factor affecting corrosion, the amount of anode and rate of corrosion, the current densities and the total resistance.

Corrosion is an electrochemical process in which a current leaves a structure at the anode site, passes through an electrolyte, and reenters the structure at the cathode site. Differences in potential at different points along the pipe begin to develop. For example, because it is in a soil with low resistivity compared to the rest of the line, current would leave the pipeline at that anode site, pass through the soil, and reenter the pipeline at a cathode site. These potentials generate corrosion currents which leave the pipe to enter the soil at certain selective locations.


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