This document discusses cathodic protection, which uses electric current to control corrosion of buried or submerged metal structures. It specifically focuses on impressed current cathodic protection. Impressed current systems use anodes connected to a DC power source to apply an external current and move the metal surface to a negative potential where it is protected from corrosion. Some key applications discussed include pipelines, ships, offshore platforms, and galvanized steel. The document provides a brief history of cathodic protection and describes the basic corrosion reactions and how impressed current systems work to prevent corrosion.
2. What is Corrosion ?
The word “Corrosion” is made from Latin word
“Corroder” = To gnaw
It is the gradual destruction of materials
(usually metals), by chemical reaction with its
environment.
It means electrochemical oxidation of metals in
reaction with an oxidant such as oxygen.
It also occurs in non-metals like polymers &
ceramics.23 May 2015
3. Cathodic Protection is a method of corrosion control
that can be applied to buried and submerged metallic
structures.
The material to be protected is supplied with an external
cathodic current.
The electrochemical potential of the protected material
is moved in a negative direction to the immune area.
The material is completely protected when it reaches
the Protection Potential.
What is Cathodic Protection ?
23 May 2015
5. HISTORY
Cathodic Protection was first described by Sir
Humphry Davy in a series of papers presented to the
Royal Society in London in 1824.
Thomas Edison experimented with impressed
current cathodic protection on ships in 1890 but was
unsuccessful due to lack of a suitable current source
and anode material.
In USA by 1945 CP was applied to oil & natural gas
industry.
6. DISCRIPTION
The simplest method to apply CP is by connecting the metal to
be protected with another more easily corroded “Sacrificial
Metal” to act as the anode of the electrochemical cell.
The sacrificial metal then corrodes instead of the protected
metal. When passive galvanic CP is not adequate, then we
provide an external Dc source.
Common applications are: Steel water or oil pipe lines,
storage tanks, ship & boat hulls, offshore platforms, metal
reinforcement bars in concrete buildings.
In galvanized steels , in which a sacrificial coating of zinc on
steel parts protect them from rust.
23 May 2015
7. Why it is important ?
Corrosion costs money.
Corrosion of metals cost USA
economy almost $300 billion per
year and it is estimated that 1/3 of it
can be controlled by better
techniques like this.
Our country has been losing around
₹1.52 lakh crore every year due to
corrosion in various sectors like;
infrastructure, manufacturing,
production, defense & nuclear
waste.
23 May 2015
8. Reaction
The basic process at an anodic site is the release of
iron (Fe) from the steel surface into the environment
and can be expressed as:
Fe Fe2+ + 2e-
During the process two electrons are generated
which must be consumed by the environment.
4H++ O2 + 4e- 2H2O
2Fe + 2H2O + O2 2Fe(OH)2
The term Fe(OH)2 is iron oxide which can be
oxidized to form the Red-brown Fe(OH)3 called
Rust.23 May 2015
9. SACRIFICIAL ANODE
In the usual application, a galvanic anode, a piece of a more
electrochemically active metal, attached to the vulnerable
metal surface where it is exposed to the corrosive liquid.
Galvanic anodes have more active voltage that the target
material usually steel.
For effective CP, the potential of the steel surface is polarized
more negative until the surface has a uniform potential.
Metals like Zn, Al & Mg are used for making anodes.
For increasing electrical contact the active metal is placed in
back fill (Coal & NaCl).
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12. IMPRESSED CURRENT CATHODIC
PROTECTION
For larger structures, galvanic anodes can’t economically deliver
enough current to provide complete protection.
In this method, an impressed current is applied in opposite
direction to nullify the corrosion current and convert the corroding
metal from anode to cathode.
ICCP systems use anodes connected to a DC source.
This current is given to insoluble anode like graphite, stainless steel
or scrap iron buried in soil.
The negative terminal of DC is connected to pipeline to be
protected. The anode is kept in back fill to increase the electrical
contact with the surrounding soil.23 May 2015
18. Applications of Impressed Current
Applied on steel in seawater or soil
Oil Platforms in steel and concrete
Subsea Pipelines
Hull
Quay structures and sheet pile curtains
Concrete bridges placed in seawater
Pipelines buried in soil
Vessels/tanks buried in soil
23 May 2015
23. IMPRESSED CURRENT
Advantages:
High driving voltage (30 V)
Few anodes – reduced resistance
Disadvantages:
Vulnerable components
Need for regulation/control system
Risk of overprotection of highly charged materials
Coating damages – cathodic accouplement
Need for/recommended protection shield around the
anodes
Need for maintenance23 May 2015
24. Problems Arised Due To CP
Production of hydrogen ions
Cathodic Disbonding
Cathodic Shielding
Safety
23 May 2015