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Owing to the current employment climate, MaxCo. has
been
exploring as many methods as possible for gold extraction.
Plan 73 is based on two facts:
(a) Gold is highly conductive
(b) Gold has a fairly low melting temperature
(c) Molten gold wets (and therefore bonds with) several
other
metals, such as silver.
With these points in mind, we have been developing the
MaxCo. Gold-separating Arc Welding Device (or GAWD).
The GAWD consists of a series of pairs of metal plates, each
arranged in a V-shape with a gap between them at the base
of the V. The gap between the topmost pair is a few
millimetres wide. The gap between the next pair is
smaller,
and so on until the gap between the last pair of plates is
only
about a tenth of millimetre.
The V-pairs are also tilted (if you're looking at the "V"
profile,
the plates are higher "into the screen" than they are "out of
the screen").
Finally, since everything is better with vibration, we vibrate
the whole thing.
An alarming voltage is now applied between the left-hand
plates and the right-hand plates.
Next, we take either sand containing placer gold (that is,
small particles of gold) or crushed rock containing some
small
amount of gold, and we pour it slowly into the topmost V.
Normal sand and grit will fall through the gaps in successive
V's until it reaches a gap too small to pass through. At that
point, it will be stopped, but the vibrations plus the front-
to-
back slope will cause it to spill out of the open face of the
V.
Any gold particles, however, will sooner or latter fall
through
a gap which is just _slightly_ wider than they are. At this
point, an electrical arc will form from one metal plate,
across
the gold particle, and on to the other plate.
Because gold melts quite easily, this arc will cause the gold
particle to become welded to one or other (or both) of the
two plates making up that V. If the now-welded particle
spans
the plates, it will create a small short-circuit between
them.
When enough gold particles have been captured in this way,
their short-circuiting effect will make it difficult to sustain
a
high voltage across the plates. At this point, we pause. We
ramp up the current, sufficient to melt all the little gold
bridges that have formed, and fire a blast of compressed
air
through the system. Any gold will either form a mist of
small
droplets which are captured by a filter system, or will flow
onto the plates as a thin layer for later recovery - in either
case, the gold "bridges" are broken, and the process can
resume.
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Will this be more or less successful than trained magpies? |
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Can it make gold teeth? Croissant hovers in anticipation of
answer.... |
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Yes. Yes, it certainly can. |
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I am concerned that as described, capture of a single piece of gold would require deactivation and clearing of the entire system. For example: the V sized to capture 1 cm nuggets of gold. After capture of one such nugget and formation of the bridge, additional nuggets stopped by that V will not be captured but will be vibrated out laterally and lost. The horror. It is hard for me to even type out such a scenario. |
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My solution: rather than plates, each V is modular, with voltage fed down strips that are insulated from one another. If a gold bridge forms, shorting out one strip comprising the V, the power is cut to that strip but remains on for the rest. One can thus collect several nuggets of gleaming gold per V rather than just one. |
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And if you make a dental mold and use it for your framework, you'll get gold veneers in the process. |
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Fashions change though... |
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//capture of a single piece of gold would require
deactivation and clearing of the entire system// |
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It depends. As long as enough current can be
supplied, you could tolerate several melted particles
bridging the plates. |
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Also, if a particle persists as a "bridge", it will be kept
molten by the passing current; if the plates are made
of a metal wetted by gold, then this bridge will soon
break as the gold is wicked away. Therefore, the
system ought to keep running until there's a heavy
enough buildup of gold on the plates that it forms a
"lip" which can span the gap even when molten. |
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Did GAWD visit you in a dream? |
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No, but we sometimes meet for coffee. |
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Arc welding a chunky nugget into place is one thing. But wouldn't a nugget melted by ohmic heating just fall thru the crack? It seems like you would want to turn off the juice to prevent that. |
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Ohmic heating. Ohmic heating. So rare that I get to use that term. I hope I have used it correctly. |
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Yes, a big melty nugget would drip through. But then
it would drop onto the next pair of plates, and so on.
And at each stage it will melt and tend to wick onto
the surfaces. |
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A *really* big nugget might not wick onto the plates
completely. But you're unlikely to find a really big
nugget. I'm thinking more of placer deposits, where
small particles of eroded gold are found in sand. |
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If my dentist tells me this is no good, then you owe me a croissant AND a new gold crown. |
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A corrode is the third electrode in a system. There's
the anode (where anions migrate to); the cathode
(where cations migrate to); and the corrode (where
onions migrate to). |
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Thanks, [bigs]. I have to admit I was a little worried for a while, having
worked in the same lab for 23 years. Fortunately, I have landed a job as
Product Evaluator for Smirnoff. I haven't actually told Smirnoff this, but I
plan on working freelance. |
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If you look on the Smirnoff website, they have plenty of cocktail recipes.
Inexplicably, though, none of them seem to include antidepressants or
beta-blockers. This is a gap in the market and I'm expecting I can help
them out there. And I wasn't planning on operating heavy machinery
anyway, which means that I'm basically made for the job. |
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And, while we're on the subject (which is of course wildly off-topic; but
it's my topic so what the heck), my condolences on your own. Life, in
general, is at significantly less than 760mm Hg. |
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/But you're unlikely to find a really big nugget/ |
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I can see that big one now, when I close my eyes. But I've been looking at the sun so maybe that's it. I know those gold marbles are out there, on the alluvial flume, winking in the shadows of the sturgeon. Beckoning. Go ahead, call me mad. Mad, they called me. Mad! But I'll show them. I'll show them all! |
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//But I'll show them. I'll show them all!// Wouldn't
you be better off not showing anyone? |
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