Importance of Re-Extraction of Rare Earth Metals from e-waste.

  Why is there a need for the re-extraction of rare earth metals from e-waste?

The first reason depends on the material type; rare earth metals are embedded in low concentrations in rocks. They are not that rare, but they are called rare earth metals because they are difficult to isolate.   

Another reason is that; 20 to 50 million metric tons of e-waste are disposed of worldwide every year. India generates about 2 million tonnes (MT) of e-waste annually. Cell phones and other electronic items contain high amounts of precious metals like gold or silver. 



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One tonne of mobile phones has as much as 340 grams of gold, 3.5 kilograms of silver, 140 grams of palladium, and 130 kilograms of copper. Americans dump phones containing over $60 million in gold/silver every year. Only 12.5% of e-waste is currently recycled.

 It takes around 240.4 kg of fossil fuel, 21.7 kg of chemicals, and 1360 liters of water to manufacture one computer and monitor.

Rare earth metals are crucial in various other things in the world.

For example,

1) Neodymium is used to make powerful magnets used in loudspeakers and computer hard drives to be smaller and more efficient.

2) Praseodymium is used to create strong metals for use in aircraft engines. Praseodymium is also a particular glass component used to make visors to protect welders and glassmakers.

3) Cerium is used in catalytic converters in cars, enabling them to run at high temperatures and playing a crucial role in the chemical reactions in the converter. Lanthanum and cerium are also used in the process of refining crude oil.

Now that we have seen why rare earth metal extraction is essential, let's see some methods of re-extraction of rare earth metals from e-waste.

 

Pyro-metallurgical Process:

E-waste is melted with several flux components as slag formatives in the pyrometallurgical process. Here the molten material which contains the valuable metals comes in contact with the molten metal pool in which the valuable metals in the molten materials accumulate. The accumulated molten metal is called collector metal. Then, further treatment on the collector metal is done to separate and purify the different metals present in the molten metal pool.

Hydrometallurgical Process:

In the pyro-metallurgical process, the e-waste is melted. But in the Hydrometallurgical process, the valuable metals in the e-waste are first leached with acid or alkali solutions. Then they are concentrated by methods like cementation, precipitation, and solvent extraction. 

Bio Leaching:

Apart from the above two methods, this process uses bacterial means for extraction. Here bacterial leaching of metals in the e-waste is used. This method's most commonly used bacteria are acidophi-lus and chemolithotrophic microbial consortia of: Acidithiobacillus ferrooxidans, Acidithiobacillus thiooxidans, Leptospirillum ferrooxidans and heterotrophs.

 

References: http://epe.pwr.wroc.pl/2013/1-2013/Willner_1-2013.pdf

https://www.jchps.com/specialissues/Special%20issue3/33%20jchps%20si3%20addn%20kavitha%20147-149.pdf

            

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Blog Credits: Avishkar Avinash Kale ,112011054 (SY, Metallurgy) (team Meta Monday)

 

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