Discuss sacrificial protection and give two everyday examples where this method is used?

Simply put, sacrificial protection is a method used to prevent corrosion. This is done by connecting the metal we want to protect from corrosion, usually iron or steel, to a more electrochemically reactive metal – see .

The more reactive metal lose electrons more easily and donates them to the less reactive metal, replacing the electrons it lost through . In essence, the more reactive metal becomes a sacrifical anode and the protected metal becomes the cathode, which does not corrode – the same principle behind .

Usually zinc or magnesium are used to protect iron from corrosion. The oxidized iron will be reduced back to its original state by the electrons coming from zinc or magnesium, basically reversing the oxidation process.

Sacrificial protection has many applications, as you would imagine, most commonly being used to protect

  • Above-ground and undergound tanks;
  • Pipelines;
  • Ship hulls;
  • Oil rigs;

Here’s a very nice animation showing how sacrificial protection works

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Discuss sacrificial protection and give two everyday examples where this method is used?

Simply put, sacrificial protection is a method used to prevent corrosion. This is done by connecting the metal we want to protect from corrosion, usually iron or steel, to a more electrochemically reactive metal – see .

The more reactive metal lose electrons more easily and donates them to the less reactive metal, replacing the electrons it lost through . In essence, the more reactive metal becomes a sacrifical anode and the protected metal becomes the cathode, which does not corrode – the same principle behind .

Usually zinc or magnesium are used to protect iron from corrosion. The oxidized iron will be reduced back to its original state by the electrons coming from zinc or magnesium, basically reversing the oxidation process.

Sacrificial protection has many applications, as you would imagine, most commonly being used to protect

  • Above-ground and undergound tanks;
  • Pipelines;
  • Ship hulls;
  • Oil rigs;

Here’s a very nice animation showing how sacrificial protection works

Leave a Comment

Your email address will not be published. Required fields are marked *

Discuss sacrificial protection and give two everyday examples where this method is used?

Simply put, sacrificial protection is a method used to prevent corrosion. This is done by connecting the metal we want to protect from corrosion, usually iron or steel, to a more electrochemically reactive metal – see .

The more reactive metal lose electrons more easily and donates them to the less reactive metal, replacing the electrons it lost through . In essence, the more reactive metal becomes a sacrifical anode and the protected metal becomes the cathode, which does not corrode – the same principle behind .

Usually zinc or magnesium are used to protect iron from corrosion. The oxidized iron will be reduced back to its original state by the electrons coming from zinc or magnesium, basically reversing the oxidation process.

Sacrificial protection has many applications, as you would imagine, most commonly being used to protect

  • Above-ground and undergound tanks;
  • Pipelines;
  • Ship hulls;
  • Oil rigs;

Here’s a very nice animation showing how sacrificial protection works


Leave a Comment

Your email address will not be published. Required fields are marked *

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