Thursday, February 14, 2008

Cathodic protection for dummies





Electrochemical Cells
Oxidation and Reduction Electrochemical Reactions Oxidation and Reduction:Metals are elements that tend to lose electrons when they are involved in chemical reactions, and nonmetals are those elements that tend to gain electrons. Sometimes these elements form ions, charged elements or groups of elements. Metallic ions, because they are formed from atoms that have lost electrons, are positively charged (the nucleus is unchanged). When an atom or ion loses electrons it is said to have been oxidized. A common oxidation reaction in corrosion is the oxidation of neutral iron atoms to positively charged iron ions:

Fe » Fe+2 + 2e-
The electrons lost from a metal must go somewhere, and they usually end up on a nonmetallic atom forming a negatively charged nonmetallic ion. Because the charge of these ions has become smaller (more negative charges) the ion or atom which has gained the electron(s) is said to have been reduced.

4H+ +O2 + 4e- » 2H2O
or
2H+ +2e- » H2
While other reduction reactions are possible, the reduction of oxygen is involved in well over 90% of all corrosion reactions. Thus the amount of oxygen present in an environment, and its ability to absorb electrons, is an important factor in determining the amount of oxidation, or corrosion, of metal that occurs.
Mnemonic device: Many people have a hard time remembering what oxidation and reduction mean in terms of chemical reactions. If you just remember that reduction means “get smaller,” then you can remember that the electrical charge on a reduced chemical has gotten smaller (has more negative charges). The opposite reaction, oxidation, means that the charge has gotten larger (not so easy to remember).
The two metal strips shown below are exposed to the same acid. Both metals undergo similar oxidation reactions: \
Cu » Cu+2 + 2e-
and
Zn » Zn+2 + 2e-
The electrons freed by the oxidation reactions are consumed by reduction reactions. On the copper the reduction reaction is:

4H+ +O2 +4e- » 2H2O
The corrosion rate of the copper is limited by the amount of dissolved oxygen in acid. On the zinc the reduction reaction is:

2H+ +2e- » H2
The hydrogen ions are converted to hydrogen gas molecules and can actually be seen bubbling off from the acid. If we now connect the two metal samples with a wire and measure the electricity through the connecting wire, we find that one of the electrodes becomes different in potential than the other and that the corrosion rate of the copper decreases while the corrosion rate of the zinc increases. By connecting the two metals, we have made the copper a cathode in an electrochemical cell, and the zinc has become an anode. The accelerated corrosion of the zinc may be so much that all of the oxidation of the copper stops and it becomes protected from corrosion. We call this method of corrosion control cathodic protection. The reaction at the copper (cathode) becomes:

2H+ +2e- » H2
The voltage of the copper shifts to a point where hydrogen ion reduction can occur at the copper surface. The oxidation (corrosion) of the copper cathode may completely stop due to the electrical connection to the zinc anode. The reaction at the zinc (anode) remains the same,

Zn » Zn+2 + 2e-
but the reaction rate increases due to the fact that the surface area of the clean (uncorroding) copper surface can now support a reduction reaction at a high rate. Thus connecting these two metals virtually stopped the corrosion of the copper and increased the corrosion rate of the zinc. We say that the zinc cathodically protected the copper from corrosion. Cathodic protection is a common means of corrosion control.
Mnemonic device: Anodes are those portions of an electrochemical cell that have mostly oxidation reactions. Cathodes are those locations of an electrochemical cell that have mostly reduction reactions. One way to remember which kind of reaction predominates at each kind of electrode is to note that anode comes before cathode in the alphabet just like oxidation comes before reduction. Anodes oxidize; cathodes reduce.
Cathodic Protection
Cathodic protection is an electrical means of corrosion control. Cathodic protection can be applied using sacrificial (galvanic) anodes or by means of more complicated impressed current systems.
This Louisiana fishing boat has sacrificial zinc anodes welded to the hull to slow down corrosion. No pattern is apparent to how the anodes were attached-the design philosophy seems to be that if one anode is good, more is better.

The Kennedy Space Center's cathodic protection research has concentrated on the use of sacrificial and impressed current systems for minimizing corrosion of embedded steel in concrete structures.
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