How to extract precious metals from computers

Written by norm dickinson Google
  • Share
  • Tweet
  • Share
  • Pin
  • Email
How to extract precious metals from computers
There is gold to be found in old scrap computers and electronics. (lingots d"or image by dead_account from

Recovery of precious metals from computer scrap is a highly specialised process that involves disassembly of the computer, separation of precious-metal-bearing components and a series of chemical processes to recover the metals. It is estimated that old computer scrap contains up to one ounce of gold per ton of scrap, which is similar to the ratio of gold in high grade gold ore mined from the earth. There is specialised equipment available from several vendors to assist with the process.

Skill level:
Moderately Challenging

Things you need

  • #1 and #2 Phillips screwdrivers
  • Large and small flat-blade screwdriver
  • Small cutting pliers
  • Locking pliers
  • Crock pot
  • 2-quart Pyrex casserole dish
  • Tap water
  • Baking soda
  • Sulphuric acid
  • Hydrochloric acid
  • Urea
  • Precipitant
  • Gold detection liquid
  • Ammonia detection liquid
  • Coffee filters
  • Glass stirring rod
  • Heavy plastic strainer
  • Five-gallon pail
  • Ingot mould
  • Kiln
  • Self-contained breather apparatus
  • Outdoor laboratory

Show MoreHide


    Dissasembly and Preparation of the Computer Components

  1. 1

    Remove the cover from the computer and remove all of the circuit boards, including the motherboard.

    How to extract precious metals from computers
    The gold fingers on the edge of the boards contain most of the recoverable gold. (circuit board image by Michele Maakestad from
  2. 2

    Remove any metal brackets, screws, heat sinks, wires, plastic clips or other extra material from the boards.

  3. 3

    Locate and remove any chips that can be removed, including CPU chips and chips that are soldered onto the boards. These can usually be removed by running a flat-blade screwdriver along the legs or by clipping the legs with cutting pliers.

    How to extract precious metals from computers
    There is some gold in most computer chips, especially older CPUs. (two processors image by Wayne Abraham from
  4. 4

    Break off the gold fingers from all of the circuit boards carefully, using a padded set of pliers. Wrapping tape around the teeth works well.

  5. 5

    Remove any gold-plated pins and connectors by breaking the boards where the pins are. Leave a small section of circuit board attached to the pins to avoid losing any gold from them.

    How to extract precious metals from computers
    There are many different places to find gold-plated pins in a computer. (hard drive details image by Agb from
  6. 6

    Sort the remaining scrap into piles for later recovery of lesser metals and smaller amounts of precious metals. Steel, copper, zinc, aluminium, brass and other metals make up a significant amount of these items and should be recovered to maximise your profit. Stripped circuit boards have some gold but not enough to recover manually. These can be sold to recyclers who specialise in electronics recovery.

    Chemical Reactions and Gold Recovery

  1. 1

    Mix sulphuric acid and hydrochloric acid in the crock pot carefully without heat to create Aqua Regia, or Royal Water, the only acid combination that actually dissolves gold. Note that the ratio for mixing these two acids will vary depending upon the source, concentration and purity of the individual acids.

    How to extract precious metals from computers
    Mixing acids is dangerous business and should be done with extreme caution. (hand s image by Andrey Kiselev from
  2. 2

    Add the gold pins and gold fingers to the acid. Keep at least an inch of acid above the scrap at all times, as some of the acid will boil off during the following steps.

  3. 3

    Crack open each of the integrated circuits gently, and add them to the acid.

  4. 4

    Turn the heat up to the lowest setting and let the mixture simmer for one hour, stirring gently with the glass rod every five minutes.

  5. 5

    Place a coffee filter into the plastic strainer. Slowly pour the acid, fingers, pins and chips into the filter and capture all of the acid in the casserole dish. Allow the strainer to drip for several minutes, shaking gently to avoid splashing.

    Liquid Into Gold

  1. 1

    Place the scrap remains into the five-gallon pail for later secondary processing.

  2. 2

    Add a small amount of urea to the acid to bring the pH level down to normal. The amount will vary greatly with each batch, and depends upon the acid concentration and the amount of metal dissolved.

  3. 3

    Add the precipitant to the acid mixture slowly, stopping often to check for traces of remaining gold with the gold detection liquid as per instructions that came with the liquid. (There are several types of liquid available and each has its own particular method.)

  4. 4

    Allow the liquid to sit undisturbed for 24 hours so that all of the gold can precipitate and settle to the bottom of the casserole dish.

  5. 5

    Drain off all of the liquid carefully, making sure that none of the material on the bottom gets lost, because it is essentially pure gold. Rinse the gold with tap water. Check for any traces of ammonia with the ammonia detection liquid, and drain again.

    Refining the Recovered Gold

  1. 1

    Place the gold mud into the crucible of the kiln and set the kiln to run for one hour above the melting point of gold.

  2. 2

    Pour the molten gold into the ingot mould and allow it to cool.

  3. 3

    Wait for the gold to cool and then remove it from the mould for weighing.

Tips and warnings

  • Use of personal protective equipment is required, as the chemicals can cause severe burns and the fumes are noxious. Eye protection, heavy gloves, an acid-neutralising respirator and an apron are minimum prerequisites for starting the chemical steps of this process.
  • Precious metal reclamation from computer scrap is a technical process that involves a variety of hazards and specialised processes, and proceding past the preparation stage can subject the preparer and the environment to toxic chemicals and is a violation of various environmental and zoning regulations in many parts of the United States. Never attempt this operation in a residential dwelling.

Don't Miss

  • All types
  • Articles
  • Slideshows
  • Videos
  • Most relevant
  • Most popular
  • Most recent

No articles available

No slideshows available

No videos available

By using the site, you consent to the use of cookies. For more information, please see our Cookie policy.