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deltaH
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Mine platinum from the dust next to highways
6.8g Pt/ton of dirt next to the highway is a pretty impressive grade!
https://www.youtube.com/watch?v=v5GPWJPLcHg
Damn, I wish I lived in a country were catalytic converters were mandatory
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Zephyr
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Wow, thanks for sharing this very cool video. Maybe highway dust will become a valuable commodity one day...
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deltaH
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Pleasure! Mind you, the dirt immediately on the down stream side of the road could be pretty rich as the road dust would wash over to there from
rainfall, unless there are gullies and storm drains
[Edited on 29-5-2016 by deltaH]
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ficolas
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6.8g/ton isnt probably the amount, he suposed the whole beat was platinum.
In what country arent catalytoc concerters mandatory?
It doesnt seem fair that some countries are able to pollute more than others, but politics are politics, they should be imposed everywhere
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aga
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Sounds like fun !
$214 for collecting/processing a ton of road-dust sounds less attractive.
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deltaH
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wow, that much? ... and I get to do chemistry? I'll take it
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unionised
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Quote: Originally posted by aga |
Sounds like fun !
$214 for collecting/processing a ton of road-dust sounds less attractive. |
Possibly more attractive than processing a ton of platinum ore.
Occurrence in the earth's crust is something like 4 or 5 mg/ ton.
It would be interesting to know if there are valuable amounts of other metals- like Cu and Pb in road dust.
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deltaH
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Actually its a little more than what's found in Platinum ore. South Africa has the largest reserves of platinum in the world. This is from one of our
platinum mining companies:
Source: http://www.mintek.co.za/Pyromet/Platinum/Platinum.htm
So as you can see, there's more in this road dust than platinum ore and you don't have to blast, dig and mill it!
[Edited on 29-5-2016 by deltaH]
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unionised
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Yes, but I don't think you will be able to extract lots of nickel, cobalt etc from road dust to cover most of the cost.
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MeshPL
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http://www.telegraph.co.uk/news/uknews/2976623/Road-dust-can...
Cody wasn't the first one to think about it.
Here's a paper on a subject:
http://www.ncbi.nlm.nih.gov/pubmed/15050388
But it is 12 years old and since that amount of platinum in exhaust catalysts may have increased.
Sewage also contains precious metals:
http://www.telegraph.co.uk/news/newstopics/howaboutthat/1199...
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careysub
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So, how much roadway do you need to vacuum up dust from to get, say, 100,000 tonnes (2000 troy ounces of Pt*) and what would be the cost of doing so?
Three things make a mine: an ore body of sufficient concentration, an ore body that is accessible, and an ore body that is large enough to payback the
cost of opening the mine with profit.
The road-dust only satisfies the first part. Low concentration ores can be mined for profit only because they can be extracted in bulk at a low cost.
*This is way insufficient to open a processing operation, really. A reliable source of one million tons would probably be needed to get even a second
look.
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aga
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Ore is much easier to get in kiloton quantities.
Dust is harder to catch.
Edit:
Perhaps people who live in high-density cities would donate their used hankies ?
plantinum-from-snot.com is born.
[Edited on 29-5-2016 by aga]
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j_sum1
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I would think that if you are sweeping the streets anyway then a lot of the donkey-work is done. All that is required is to divert the sweepings to a
processing facility. I think that there are a lot of harder ways of getting a viable ore.
The idea has merit. Especially for urban areas.
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unionised
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What might be profitable is to sweep up the dust (roads get swept anyway), sieve it to remove most of the stuff that nobody wants, (maybe roast it to
remove rubber dust- just to save weight) and then sell it to an existing platinum mine to chuck in with their beneficated ore before the smelting
process.
Much less investment in equipment- albeit at some considerable transport cost.
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j_sum1
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Added to that idea...
Most cities of amy size have a rail lin. It is common for more goods to go into a city than come out. So filling a railcar or two with dust and
transporting it out could be reasonably cost-efficient. If the sweeping, the infrastructure, and the processing are already in existence then it is
largely a logistics exercise.
Sounds like a sensible course of action to me.
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unionised
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Recycling the PGM would also be more environmentally friendly: Pt etc are toxic
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aga
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Depending on rainfall, getting your hands on the dust might be economically viable.
Rain washes stuff into the sewers/storm drains.
Periodically these need to have the silt cleaned out, which is a service that the town council generally pay for, as the waste (in the UK at least) is
classified as 'contaminated' due to the oils & tars from the tarmac.
The waste companies have to pay to dispose of the silt.
If you could work out how to profitably process the silt (and dispose of the residues) you'd simply offer a free disposal service to the waste
companies, and they'd collect/transport the silt to your facility for free.
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deltaH
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The nice thing about ordinary PGM ore is that the value metals are associated with sulphide minerals that can easily be concentrated out of the waste
powdered rock (called gangue in the industry) by the cheap process of flotation.
During flotation, air is bubbled through the stirred slurry of ore, water and the sulphides, being naturally hydrophobic, stick to the rising air
bubbles. At the top, you get a grey froth which spills over a weir and is then vacuum filtered continuously in drum filters.
The concentrate is then sent straight to the smelter if I remember correctly.
Now with this road dirt, the PGM metals in the catalyst is supported over inert oxides like silica and titania, which unfortunately is chemically
similar to gangue, so difficult to concentrate it by flotation as these materials are hydrophilic.
The fire assay that Cody used in the clip was a neat trick, but not feasible because of the enormous amounts of lead used and wasted.
It would really be ideal to have some kind of simple physical method of concentrating the dirt, but I can't think of any just now.
As far as wet chemistry is concerned, leaching out all the metals with acid and oxidant is probably the most accessible, but not a very good method
cost-wise.
Time for vinegar, air and salt again
I'm glad some people are starting to toy with the idea, I agree that mines are more feasible economically, but unfortunately I don't own one. Does
anyone care to donate a platinum mine? I'd even settle for rights to the ore body, see I'm not greedy
[Edited on 30-5-2016 by deltaH]
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100PercentChemistry
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Sound like a lot of work but sounds fun!
I'm assuming it's from the converter or is it from the asphalt itself?
[Edited on 5-30-2016 by 100PercentChemistry]
[Edited on 5-30-2016 by 100PercentChemistry]
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deltaH
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From the converter.
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aga
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Any vinegar salt and air notions regarding Pt dissolution ?
Perhaps add pepper (chilli) ?
What the hell ! go organometallic !
[Edited on 31-5-2016 by aga]
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unionised
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Quote: Originally posted by deltaH | The nice thing about ordinary PGM ore is that the value metals are associated with sulphide minerals that can easily be concentrated out of the waste
powdered rock (called gangue in the industry) by the cheap process of flotation.
...
The concentrate is then sent straight to the smelter if I remember correctly.
...
[Edited on 30-5-2016 by deltaH] |
I suspect that, give the tonnage of material put through a smelter, adding a few tons of road dirt to the "concentrate" wouldn't be a problem. The
"concentrate" from flotation still has gangue in it. You would be adding a little more dross, but quite a lot more Pt.
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deltaH
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Quote: Originally posted by aga | Any vinegar salt and air notions regarding Pt dissolution ?
Perhaps add pepper (chilli) ?
What the hell ! go organometallic !
[Edited on 31-5-2016 by aga] |
If you had very thin platinum plating on some electronic components, I suspect you could well leach it using a solution of salt, vinegar and hydrogen
peroxide, as we did with gold. In this case you would form chloroplatinic acid which is analogous to chloroauric acid.
HOWEVER, here we have platinum supported over extremely high surface area catalyst support. This is not just ordinary silica or titania, it's fumed
silica and titania (typically) with specific surface area's of 300+ m^2/g and ~50m^2/g, respectively. These are powerful adsorbents because of those
large surface areas, much like activated carbon adsorbs things like crazy. So even if you did oxidise the precious metal here, those
chloroplatinic acid ions would probably still stick like mad to the silica.
In fact, you prepare these catalysts by impregnating this carriers/supports with a solution of chloroplatinic acid and they adsorb on.
This is the problem. Leaching these things off is not a favourable equilibrium, which necessitates multiple washings and concentrating the resulting
very dilute solution. All this makes it extremely impractical.
[Edited on 2-6-2016 by deltaH]
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deltaH
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Quote: Originally posted by unionised | Quote: Originally posted by deltaH | The nice thing about ordinary PGM ore is that the value metals are associated with sulphide minerals that can easily be concentrated out of the waste
powdered rock (called gangue in the industry) by the cheap process of flotation.
...
The concentrate is then sent straight to the smelter if I remember correctly.
...
[Edited on 30-5-2016 by deltaH] |
I suspect that, give the tonnage of material put through a smelter, adding a few tons of road dirt to the "concentrate" wouldn't be a problem. The
"concentrate" from flotation still has gangue in it. You would be adding a little more dross, but quite a lot more Pt. |
I quite agree with you, I don't see any other economical way to recovering this beside smelting. Only high temperatures can negate the strong
adsorption of metal on these catalyst supports.
High temperature sinters the material which destroys the very high specific surface area of the support and also sinters the metal nanoparticles into
larger particles that can coalesce even further.
Ideally though, it would be nice if some process could be found to pre-concentrate the dirt so that you don't have to smelt such a low grade.
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deltaH
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I do have an idea as to how to pre-concentrate the dirt before smelting.
Since the catalyst support consist typically of fumed silica/titania/zirconia etc. nanomaterial with very high specific surface area, one can use
surface chemistry to one's advantage.
In a solution of high pH, these inorganic oxides charge up like crazy and you form colloidal solutions of them. Sand doesn't do that because there
isn't enough surface area to significantly charge up, so the electrostatic repulsion between sand particles due to this surface charging is
negligible, but not for silica nanoparticles.
In fact, such colloidal silica and such are sold commercially, e.g. brand name Ludox (if it still exists).
If anyone is wondering how the pH causes the surface to charge, the surface of these inorganic oxides typically contain lots of hydroxyl groups and
these can be deprotonated at high pH. In fact, it is these surface hydroxyl groups that make these materials very hydrophilic.
So perhaps all one has to do is prepare a slurry (aka thick mud) of the dirt, add cheap caustic soda to raise the pH, then tumble the dirt for some
time (cement mixer?) to mechanically assist the conglomerated catalyst particles to break up into colloidal particles that enter into solution.
Finally filter and boil down the filtrate and then smelt the resulting dark solids. You aught to have a high grade concentrate consisting of a mixture
of sodium silicates, PGMs and silica gel and other metal contaminants.
If you want to save on energy and have lots of liquor containing the colloidal materials to process, simply dig a very shallow hole over a wide area,
buy cheap thick black plastic sheeting used by builders to protect floors while painting, lay it in the hole and pour your filtrate into that to
evaporate in he sun, taking care to only have a few cm's depth in the sheet plastic or you might develop holes and leaks by the pressure exerted onto
the plastic and dirt/twigs beneath. Obviously summertime is best.
Heck, all you really need to start is a pick-up truck, cement mixer, brooms and shovels, some cheap labour, plastic sheeting and water.
If you want to smelt it yourself, you'd need to buy a furnace, $$$
Better would be to assay the concentrate and then sell it on ebay for spot price of PGM content minus some x percent to make it attractive and make
the real hard work somebody else's problem
[Edited on 2-6-2016 by deltaH]
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