Gold Recovery Computer Scrap Complete Process

if you work out the figures you have lost money . it cost you $70 (roughly and not including chemicals) to get 1g Gold at $35 a gram. You might want to rethink your business model, maybe sell pcb trimmed fingers on ebay? It looks profitable to sell them to people who want to refine them. You can sell them $35 of gold for $70!!

[Edited on 14-9-2015 by Little_Ghost_again]

Quote: Originally posted by violet sin

but the gold doesn't have to be sold immediately, one can wait for a more favorable price to sell it. or sell it on ebay to would be investors for an inflated price due to speculation and ebay fee's. cause aint no one gonna let ebay get 13% of the sale cost on gold at market value... they over charge and get what's theirs + some usually.

Quote: Originally posted by Little_Ghost_again

if you work out the figures you have lost money . it cost you $70 (roughly and not including chemicals) to get 1g Gold at $35 a gram. You might want to rethink your business model, maybe sell pcb trimmed fingers on ebay? It looks profitable to sell them to people who want to refine them. You can sell them $35 of gold for $70!! [Edited on 14-9-2015 by Little_Ghost_again]

Quote: Originally posted by violet sin

Do you currently do runs of good filled or polishing sweeps? Any $ to be made there? Another interesting way to go is the shor method with ammonium chloride, peroxide and electrolysis. No fumes.

Quote: Originally posted by violet sin

Shoe process US Patent 5009755 ( http://www.google.com/patents/US5009755 ) Ammonium chloride electrolytic leaching, activated with H2O2. worth a read. The bucket container with dividing ceramic chamber and electrode kit costs like 500$. And you have to buy the chems from the company. Unless you read the patent above. There is also no power supply provided for your investment. [Edited on 14-9-2015 by violet sin]

Quote: Originally posted by violet sin

[Edited on 14-9-2015 by violet sin] From a gold refining forum... http://goldrefiningforum.com/phpBB3/index.php main page. " . Chlorine is the active ingredient in dissolving the gold in the HCl-Cl reaction. " http://goldrefiningforum.com/~goldrefi/phpBB3/viewtopic.php?... [Edited on 14-9-2015 by violet sin]

Hi kadriver.

The full picture of what's going on is a little more complex. The production of chlorine gas is, in fact, an unwanted side reaction in this system and could/should potentially be eliminated or at least minimised.

To understand what is going on in the solution, we need to consult the Pourbaix diagrams for gold in chloride media (1) as well as that of chlorine in water (2). Apologies in advance for lazy referencing, I'm battling a nasty flu at the moment.



Firstly, take note of the AuCl4- region on the first diagram. It's rather large and goes up even to quite high pH, so you don't need extremely acidic conditions!

Secondly, on the second diagram, note that in acidic media, hypochlorites form hypochlorous acid, a very powerful oxidant indeed, even more so than chlorine (see how it's region lies at a higher potential than the chlorine region on the left?).

So from this diagram you can conclude that the oxidant is probably hypochlorous acid and that hypochlorous acid can decompose to chlorine gas if it doesn't have anything else to oxidise.

Now here's the cool bit, if you're between pH 5-6 in a 1M Cl- solution, you can't form chlorine gas, but can form AuCl4- just fine, even up to very high gold concentrations (1M), which you're far from anyhow.

So I suggest if you want to experiment with an improvement, work in a 1M sodium chloride solution (table salt) which is buffered to pH 5. That way you are not wasting acid or bleach, creating less and less hazardous waste and avoiding the formation of toxic chlorine gas! If you were wondering, the gold in solution would then be in the form of a solution of sodium tetrachloroaurate (III).

Please be careful when selecting a buffer to use. It should not contain ammonia! One possibility is a sodium acetate-acetic acid buffer, since it can be prepared from vinegar and lye, all OTC and cheap!

From reference (3), mixing 70ml 0.2M sodium acetate solution with 30ml 0.2M acetic acid will give a buffer at pH 5. Note 5% commercial vinegar is about 0.8M solution of acetic acid, so you will need to dilute. Don't forget you also need to add sodium chloride to prepare a 1M NaCl solution in that buffer!!!

You could make this in advance and large quantities and potentially have a very cheap and benign media to do your reaction in!

Be careful to add you bleach slowly and incrementally so as not to overshoot too much as you might precipitate gold hydroxide, although you would need a very large overshoot to do this as the solution is buffered. Just add enough to dissolve all the bits, then stop.

For now this is all theoretical, but I trust you might enjoy the experimentation and see the merits in this approach.

References:

Obtained online from:
(1) http://www.semos.dk/Per/41653/download/Pourbaix_multielement...
(2) http://pubs.rsc.org/en/content/articlelanding/2015/ja/c4ja00... whose image obtained online from Google image search with keywords "chlorine pourbaix".
(3) http://www.sigmaaldrich.com/life-science/core-bioreagents/bi...

[Edited on 14-9-2015 by deltaH]

Okay, dosed up, feeling a little better, can attempt some number, but take it with a big pinch of salt (excuse the pun).

So let's work on a basis of 1g Au

Moles Au = 1g / (197g/mol) = 5.076mmol.
Moles of NaOCl required = 5.076mmol/2*3 = 7.614mmol.

Assuming bleach is 3.5% m/v sodium hypochlorite, that means we need (7.614mmol)/1000*(74.44g/mol)/(0.035g NaOCl/ml bleach) = 16.19ml bleach.

To start with, just for the equation, the amount of acetic acid we need is (5.076mmol)/2*6 = 15.228mmol
Assuming vinegar to be 5% acetic acid m/v, that means we need (15.228mmol)/1000*(60g/mol)/0.05g acetic acid/ml vinegar) = 18.27ml vinegar (not counting the extra we will need to buffer with).

Now to work out the requirements to buffer this sucker.

Previously it was stated that for 70ml of a 0.2M sodium acetate solution...
First lets work out how many moles that is: 70/1000*0.2mol = 0.014mol or 14mmol of sodium acetate.

But how much sodium acetate did we actually make from our 1g gold: 15.228mmol
So using some ratio and proportion, we need: 15.228mmol/14mmol*70ml = 76.14ml to generate the portion of 0.2M sodium acetate solution.

For the recipe for the buffer, the 70ml 0.2M sodium acetate solution was mixed with 30ml 0.2M acetic acid, so using ratio and proportion again:

Amount of 0.2M acetic acid required: 15.228/14*30ml = 32.63ml 0.2M acetic acid.

But how much vinegar would yield that amount of acetic acid? 32.63ml/1000ml*0.2mol/l = 6.526mmol

That's 6.526mmol/1000*(60.5g/mol)/(0.05g acetic acid/ml vinegar) = 7.89ml vinegar

In addition to the amount required for the equation.

So the total amount of vinegar required is 18.27ml + 7.89ml = 26.16ml

Now finally we need to work out how much water to add to dilute this system.

From the buffer recipe, we want a total amount of water of 15.228/14*100ml, assuming the ions don't contribute to volume.

That's 108.77ml water. But the reaction makes some water and the vinegar and bleach 'bring' some water, so we need to subtract those.

Reaction water = 5.076mmol/2*3/1000 * 18.02g/mol= 0.137ml (neglegible)

Water from acetic acid = 26.16ml (assuming the acetic acid doesn't contribute significant volume... it does slightly because it's not fully ionised, but the conc. is very low so probably not much) = 26.16ml

Water from bleach = 16.19ml (again assuming the ions have no volume) = 16.19ml

So water needed to be added = 108.77ml - 0.137ml - 26.16ml - 16.19ml = 66.28ml

Amount of NaCl required for 1M solution is 108.77ml total water (and assumed volume) /1000ml * 1M * (58.44g/mol) = 6.36g

SUMMARY:

To dissolve 1g gold flakes (rounding number up):

Dilute 27ml 5% m/v vinegar with 66ml water to which you add your gold.
Then add 17ml 3.5% m/v bleach.

Stir and wait...

EDIT: and 7g NaCl of course!!!


[Edited on 14-9-2015 by deltaH]

Quote: Originally posted by aga

It's been minutes now, and nothing much happening ... [Edited on 14-9-2015 by aga]

Quote: Originally posted by kadriver

... using only household chemicals through the whole process.

Using only household chemicals, and your household fume hood and household acetylene torch Not quite so easy!

A fume hood is definitely required for this. You've got tons of HCl, chlorine, and sulfur dioxide fumes throughout the process. I wouldn't be comfortable doing this outside, even. It'd be impossible to work next to! Very cool video though, I enjoyed watching it. If I ever get around to making my fume hood, this is something I'd like to try out.

I also wanted to have a closer look at the prior step, the one where the base metals are selectively leached.

Let's start with copper's pourbaix diagram in chloride media of course from a thread on SM no less (1)

(1) http://www.sciencemadness.org/talk/viewthread.php?tid=7156



Notice that under acidic conditions copper is most oxidised to copper (II) chloride, but can also form copper (I) when less oxidised.

Copper (I) in concentrated chloride solutions can also form dichlorocuprate(I) anions, CuCl2-, making the copper (I) chloride soluble.

Possibly the copper is acting as the oxidant here and being reduced to copper (I) species, which is then regenerated/oxidised back to copper (II) by reaction with dissolved oxygen from the bubbling.

Perhaps the peroxide just kick starts things by leaching some initial copper.

Also notice from the diagram that a mixed media of copper (I) and (II) isn't very strongly oxidising, this is maybe the secret to this step's selectivity, i.e. in not leaching gold. From my first gold pourbaix diagram, the solution needs a minimum potential of 0.8V to be able to even start to oxidise any gold.

Instead of concentrated hydrochloric acid, here too it might be possible to make a substitution using 'salted vinegar'. Again, it might be kick started with addition of hydrogen peroxide, but it's the air from the bubbler that regenerates the oxidant and keeps things leaching over until it's all done.

If air is the key here, one way to improve this is then to improve the mass transfer of air, i.e. have a bubbler that has a diffuser on it to make very small bubbles so there is a larger surface area for oxygen to diffuse into the water, which is usually the rate-limiting step in such systems. Pressure is another method of speeding up this mass transfer, but that is extremely dangerous if you don't know what you're doing, so I'm hestitant to say more about that...

You can always use a combination of bubbling air with large bubbles to keep things thumping about together with a second bubbler with a fine frit to make diffused bubbles that up's the rate, but doesn't help much with agitation.

[Edited on 14-9-2015 by deltaH]

Quote: Originally posted by MrHomeScientist

Quote: Originally posted by kadriver   ... using only household chemicals through the whole process. Using only household chemicals, and your household fume hood and household acetylene torch Not quite so easy! A fume hood is definitely required for this. You've got tons of HCl, chlorine, and sulfur dioxide fumes throughout the process. I wouldn't be comfortable doing this outside, even. It'd be impossible to work next to! Very cool video though, I enjoyed watching it. If I ever get around to making my fume hood, this is something I'd like to try out.

deltaH Golden Fish & Chip Recipe

Seeing as deltaH had a pretty good idea of what do, i agreed to try it out.

In a 250ml beaker, the following were added :-

~6 gold plated fingers cut from RAM boards
1 ancient AMD CPU chip with loads of gold plated pins
200ml 8% white vinegar
10ml 3% H₂O₂
11.7g table salt NaCl (~1 Molar concentration)

This solution was left to react overnight with air being bubbled through it using an aquariaum pump.

No Airstone was available, so the plastic delivery tube was plugged, and several small holes made in it to spread the bubbles out.

Here are the starting materials and the 'rig' :-



The next day it was found that the solution was not really working very well, and had gone a green colour :-



An executive decision was taken by High Command to increase the NaCl concentration to 2 [M] so another 11.7g of NaCl was added.

There was no sense in having the CPU chip in the mix, as this step was simply to separate the gold foils from the copper, so the CPU was removed.

This appears to have been more effective :-



One strip of fingers appears to be mostly intact, indicating that it was produced by some other process, probably with a different Cu thickness, a different solder resist mask or something.like that.

All of the above has been conducted at ambient temperatures, currently ranging from a bone-chilling 18 C at night up to around a survivable 28 C during the day

The last photo doesn't show the colour well, yet there is a fine green-blue-white crust around the rim of the beaker.

Next step will be to filter out the gold leaves and see if we can dissolve them.

Edit:

At all times it honks of Vinegar without even a hint of chlorine.

[Edited on 15-9-2015 by aga]

[Edited on 16-9-2015 by aga]

Sounds good kadriver. It should take 48h for complete removal, although after 24h many should have separated already.

We don't yet know what the mechanism is for sure. Specific experiments would need to be designed to prove the hypothesis.

That said, my hypothesis is that the peroxide kick-starts things and get's some initial metal salts into solution relatively quickly, but that air is the net oxidant over most of the run.

In subsequent runs, if you recycle the solution used, you probably don't need the peroxide since the salts that are doing the work are present.

What we're really dying to know is whether the bleached salted vinegar dissolves gold in the next step. It sounds insane, but the Pourbaix diagrams suggest it should, even if it is a lot slower. I'm holding my breath

[Edited on 16-9-2015 by deltaH]

Nice ideas, but I don't think applying a voltage to the PCB fingers directly will be practical. While you might get it right by carefully 'sandwitching', these guys want to process 100's g (maybe even kg's) of randomly cut fingers and I strongly doubt you will get them all to make electrical contact without a lot of effort.

However, you might be able to use electrochemistry in a more generic way, on the solution itself. For example, if an anode could take Cu(I) to copper Cu(II), then it might be able to replace the role of oxygen. It's probably Cu(II) that's doing the actual leaching of the Cu(0) and then forming Cu(I). Then on the cathode, you could reduce copper ions in turn to copper metal than can be recovered.

If you can make an MMO basket (like a chips fryer) to hold all your cuttings, this should work, though it's not required to be a basket per say.

This is become a real fish and chips operation!

[Edited on 18-9-2015 by deltaH]

Quote: Originally posted by deltaH

Nice ideas, but I don't think applying a voltage to the PCB fingers directly will be practical. While you might get it right by carefully 'sandwitching', these guys want to process 100's g (maybe even kg's) of randomly cut fingers and I strongly doubt you will get them all to make electrical contact without a lot of effort. However, you might be able to use electrochemistry in a more generic way, on the solution itself. For example, if an anode could take Cu(I) to copper Cu(II), then it might be able to replace the role of oxygen. It's probably Cu(II) that's doing the actual leaching of the Cu(0) and then forming Cu(I). Then on the cathode, you could reduce copper ions in turn to copper metal than can be recovered. If you can make an MMO basket (like a chips fryer) to hold all your cuttings, this should work, though it's not required to be a basket per say. This is become a real fish and chips operation! [Edited on 18-9-2015 by deltaH]

Hi.
Yeah guess I didnt think it through , I will try a basket or something similar along side the 'normal' Way .

This is what I like best about this place! If something catches peoples minds things get done, its alot like the sodium thread. An idea is first scoffed at then everyone gets together and starts to experiment ........One day Gold from lead might come out of here, I hear they been working on that one for a VERY long time lol

[Edited on 18-9-2015 by Little_Ghost_again]

[Edited on 18-9-2015 by Little_Ghost_again]

Aaaaand it's Gone ! https://www.youtube.com/watch?v=-DT7bX-B1Mg

The Gold foils were vac filtered from the vinegar/salt/H₂O₂ solution, and then washed from the filter paper into a clean 250ml beaker as there was other brown gunk on there.

This lost some particles of gold, however it made the results clearler to see. Gentle swirling of the beaker brought most of the gold into a pile in the middle.



The fingers still had some gold attached although the 'stubborn' one lost all the gold from one side and ~60% from the other. Stirring would have helped.



The water was brought to approx 66mls and 7g of NaCl table salt was added, and stirred to dissolve.

Then 17ml of some bleach claiming 36g/100ml hypochlorite was added. The liquid measured pH 4.1 on a digital meter at this point.

Immedately a strong chlorine smell was noticed and should have been out in the fume hood. It would have been more useful to add the hypochlorite ml by ml while stirring.

Within 5 minutes of stirring ALL of the gold foils had dissolved !

Woohoo !



Huge congratulations to deltaH for inventing a NEW gold recovery process ! Well done indeed !

[Edited on 18-9-2015 by aga]

Next up is that CPU Chip.



It has been hot-glued to a plastic stir rod and is being twizzled in the solution.



30 minutes in and the pins are showing signs of corrosion, with bare copper clearly seen.

Edit:

Assuming this has all worked out well, how do i get the Gold out ?

Just filter then sprinkle in sodium metabisulphite ?

[Edited on 18-9-2015 by aga]

It's been about an hour now, and not much happening, so another 2g NaCl, ~2ml vinegar and 1ml hypo added.

Seems to have speeded up the leg corrosion.

The stick fell off, so the chip has been wedged in the pot with a bubbler tube.

The liquid is now significantly Brown in colour, reminiscent of a sodium acetate solution.

[Edited on 18-9-2015 by aga]

Wooo thats amazing!! Mine is about to be set up , I have some old circuits boards (very old modem boards) I will use those and see how selective it is, I might also add some blobs of new solder without the lead in and see how that does.

[Edited on 18-9-2015 by Little_Ghost_again]

The CPU chip resisted more. Firstly there was some copper colour appearing, then the legs went black where the Gold had dissolved :-



A quick attempt was made to precipitate some gold using (left to right)
NaOH
3% H₂O₂
Fresh Filtered Lemon Juice (smells wonderful)
Sodium Metabisulphite (loads and loads of it)

Not much joy really, but then, the quantity of Gold here is infinitessimally small.



Only the NaOH-treated solution has some suspended solids.

Will wait a while to see if they settle.

TUT TUT I can see gold left on that chip , maximise your profit aga , so how do we go about getting the copper back?

Quote: Originally posted by Little_Ghost_again

TUT TUT I can see gold left on that chip , maximise your profit aga , so how do we go about getting the copper back?

Quote: Originally posted by Little_Ghost_again

TUT TUT I can see gold left on that chip

Quote: Originally posted by aga

Quote: Originally posted by Little_Ghost_again   TUT TUT I can see gold left on that chip Sorry.Very lax indeed. I was a bit excited, seeing as it was a World First in the Entire Human History of Gold Refinery. The notion of getting it 100% right before posting the preliminary results slipped my mind (such as it is).

Quote: Originally posted by Little_Ghost_again

I am playing with temperature as well at the moment and NO hydrogen peroxide. I will post an update as soon as anything happens

Cool !

Photos please of the Nitrogen Oxide Hydrogen Peroxide compound.

Even a ball-and-stick model would be fantastic

There you go

I think the ball and stick model is something like this

Have a look at this
www.mdpi.com/1996-1944/7/6/4555/pd

There is a right mix in some boards, the main problem (UK perspective) is we class older boards as toxic waste because they contain heavy metals and lead. now if we can find a way to recover those then what we are left with is the fiber glass bit, looking around it seems on the bigger scale boards are powdered up then refined to recover the metals.
This has me thinking about the left over fiber board powder, I am wondering if it would make a good additive in cement. Maybe if enough could be added it would make normal cement more insulating?
Dont get me wrong the gold recovery is a big thing, but you have a clean way to get the copper and gold so why not see if you can get the others? As mad as it sounds this could all end up really useful, especially if we can find a way to speed it up a little.
I do some chemistry but mostly things go wrong so I keep quiet about it .
So how do we go about tidying up these results? I will see if I can find out whats in the AMD processor metal wise, any idea what chip it was?

Pk a more serious topic.
Time for a word of caution, I have been breaking up some old boards with a hammer. These are a mix of very old and some newer boards I have kept for spare parts off them. In gold fever I was happily bashing away to crack open the goodies etc and pounded on a metal box on the board, BIG mistake. What I smashes open turned out to be a mercury wetted relay! So now I have mercury splashed all about the place and on my jeans , this got me thinking about possible reactions with stuff like mercury and Tantalum bead caps etc.
Might be an idea to have a think of some of the other things on boards we might come up against, Tantalum is pretty common on boards so any idea if it will react with this method? and if so is it anything to worry about? Now I got to go and try and find small bits of mercury!! Its more a warning to lurkers who might be trying to give this a go, there seemed to be a fair bit of mercury inside the relay. I have some more of these relays on another board, I will desolder them before I smash the board

Hmm Time for pic and a datasheet BRB

Couldnt find a sheet but here is a pic



I had scales on wrong read out but its 27 grams, if you shake it then you can hear it move about inside, I would roughly guess twice a normal lab thermometer worth inside.
If you can hold off until tomorrow so I can get some sulphur I will Dremel the sucker open and weigh the mercury. But its sure as hell alot more than your thinking!
Oh and I dont drink I seen what it does to others

[Edited on 18-9-2015 by Little_Ghost_again]

Having left the test tube samples overnight, the one with NaOH has developed a dark black-green lower layer and the one with sodium metabisulphite has a spongy reddish precipitate lying on top of undissolved bisulphite.

As I suspected, there is very little that is 'new' these days. I had a look in on a site goldrefiningforum.com. It requires one to register to search, but low and behold, there is a thread from 2013 on "pin foils with vinegar, peroxide, and salt"

Seems they suspect the same as what we discussed, Cu(II) is doing the etching and reducing to Cu(I) which is then re-oxidised by an oxidant (air or peroxide).

Similarly, from 2014, "bleach, vinegar and salt dissolve gold"

It easy to reinvent the wheel these days

With such knowledge out there, I wonder why its use hasn't been more common place?

*****
A word on recovery of the gold from solution post dissolution. In industry, activated carbon is used to adsorb gold from cyanide solutions. Called the 'carbon in pulp process' if I'm not mistaken.

I wonder if that might not be applied instead of reducing agents. Granulated activated carbon is very cheap and will mop up even dilute solutions nicely.

Activated carbon manufacturers have special grades of carbons specifically optimised for removing gold from solution, so if one is inclined to do this on a larger scale, it's maybe worthwhile to procure a bag of this from them.

[Edited on 20-9-2015 by deltaH]

Quote: Originally posted by deltaH

As I suspected, there is very little that is 'new' these days. I had a look in on a site goldrefiningforum.com. It requires one to register to search, but low and behold, there is a thread from 2013 on "pin foils with vinegar, peroxide, and salt" Seems they suspect the same as what we discussed, Cu(II) is doing the etching and reducing to Cu(I) which is then re-oxidised by an oxidant (air or peroxide). Similarly, from 2014, "bleach, vinegar and salt dissolve gold" It easy to reinvent the wheel these days With such knowledge out there, I wonder why its use hasn't been more common place? ***** A word on recovery of the gold from solution post dissolution. In industry, activated carbon is used to adsorb gold from cyanide solutions. Called the 'carbon in pulp process' if I'm not mistaken. I wonder if that might not be applied instead of reducing agents. Granulated activated carbon is very cheap and will mop up even dilute solutions nicely. Activated carbon manufacturers have special grades of carbons specifically optimised for removing gold from solution, so if one is inclined to do this on a larger scale, it's maybe worthwhile to procure a bag of this from them. [Edited on 20-9-2015 by deltaH]

I am a member of the GRF and I have never seen the post for vinegar salt and peroxide.

Neat to know that the bleach will dissolve the foils.

Aga, keep in mind that I had 500 grams of fingers, and only got 1 gram of gold.

Also, see my new video on stripping gold off gold plated items with an electrolytic cell. In part 2, when I added the SMB, nothing happened (because there was such a small quantity if gold in solution).

With such a small quantity of gold in solution - less than 1 gram per liter - the gold precipitates and settles very slowly.

It did ppt and settle after sitting over night - see the video, end of part 2.

Anyway, I started the scale up experiment this evening.

Here is the fingers being aerated in a solution of 2 liters of white vinegar, 235 grams of sea salt, and 100ml hydrogen peroxide. I started the experiment at 10:30pm on Tues 22 Sep 2015.

Here is a picture of the experiment immediately after starting.

Then went to take a shower and when I came back 1/2 hour later the solution had already begun to turn blue from the copper dissolving.

I am also doing a video documentary of the entire process. It should be ready to publish in a few days.

What a great thing to be able to do, even though it's already been done on the GRF.

I just wish that these videos were around back when I was learning how to do all this.

kadriver

I wonder what happened to kadriver's experiment. It's been many moons now

Hello,

Sorry it took so long. The experiment was progressing nicely, then I got swamped with work.

I left the bubbler in for about 6 days. On day five I noticed a light blue precipitate starting to form in the beaker.

About 98 percent of the foils came off the fingers. I had set the experiment aside to get some important work done.

Then disaster - I dropped a heavy glass lid from another process onto the experiment and broke the 5 liter beaker. It's just set there like that for about a week.

That's usually what happens when I reach a point where I don't know what to do.

Here is a picture.

kadriver

Quote: Originally posted by violet sin

might ammonia re-dissolve the copper compound to filter out gold fingers? that is if it is a copper salt we are seeing as the blue ppt.

Oooh, that's going to get really pretty, pretty fast Nice idea!

[Edited on 5-10-2015 by deltaH]

blimey that must be strong stuff! looks a bit like this



Mine is copper disolved in nitric and sulphuric acid (both conc), so I would say thats copper for sure. Then again I am often wrong
mine been there so long the dark blue on the bottom is crystals! what struck me is how similar the white powder was and how it sticks to the sides of the glass

[Edited on 5-10-2015 by Little_Ghost_again]

How much did it evaporate? I only ask because you said about the plate on top, I am wondering if your white powder is salt? but the blue looks like a fair bit of copper

[Edited on 5-10-2015 by Little_Ghost_again]

Quote: Originally posted by deltaH

Sorry to hear about your disaster. Sounds like the precipitate may contain copper salts. You ought to be able to wash these through a strainer/sieve and retain your gold fingers. After that I suggest filtering the solutions so you can keep the filtrate for the next batch and recover the precipitate. The precipitate should dissolve in conc. HCl if it doesn't dissolve well in water alone. You might want to try dissolving a small amount in saturated sodium chloride as well to see if that works, it's more benign than conc. HCl and cheaper! If it contains copper(I) in the mix, then that won't be very soluble in water alone. [Edited on 5-10-2015 by deltaH]

Quote: Originally posted by Little_Ghost_again

blimey that must be strong stuff! looks a bit like this Mine is copper disolved in nitric and sulphuric acid (both conc), so I would say thats copper for sure. Then again I am often wrong mine been there so long the dark blue on the bottom is crystals! what struck me is how similar the white powder was and how it sticks to the sides of the glass [Edited on 5-10-2015 by Little_Ghost_again] How much did it evaporate? I only ask because you said about the plate on top, I am wondering if your white powder is salt? but the blue looks like a fair bit of copper [Edited on 5-10-2015 by Little_Ghost_again]

Quote: Originally posted by deltaH

What do your mean by "how do I make the acetate"?

Quote: Originally posted by aga

The fact that PCBs have a lot of copper on them surely suggests the blue is a copper salt ? Also it's Blue ...

Quote: Originally posted by Little_Ghost_again

Then again he used fingers I think, so should be no lead as it should be the copper the glue the gold and the stuff they put on top like a varnish (the name escapes me).

The strainer worked nicely. probably let some of the tiny pieces of gold foils through. But as you can see most are in the strainer!

I was at a loss on how to proceed. Many thanks to deltaH for suggesting the strainer.

After getting the foils in the strainer and rinsing the precipitate off into the small bucket, I collected all the foils in a big bucket of water

Here is all the foils ready to dissolve. Thanks for helping me with this. If not for the suggestions I received here it would still be sitting there untouched and broken!

I filtered out the foils and placed them and the filter paper into a 600ml beaker.

I adding about 100ml HCl then adding about 10ml houshold bleach in my fume hood. The foils dissolved in just a few minutes, the filter paper disintegrated.

I then filtered the filter paper and other solids out so I had a clean solution of gold bearing liquid.

I added a couple of spoons of sodium meta bisulfite and the gold precipitated. see photo.

Yes, very nicely done kadriver and thanks so much for scaling up! Death to HCl! Death to nitric!

[Edited on 6-10-2015 by deltaH]