2 SALAR BATTERY BANKS ? Ivana deposit
is immediately adjacent to Picos Salar ( Laguna )
Indio Salar very close by.
Was thinking about...
( alpha/beta emissions ) from uranium.
Alpha converts to Helium
A single alpha particle, ejected at high speed from a nucleus, can create up to 100,000 ions along its path before it gains two electrons to become a neutral helium atom.
I wonder if the ( trail path ) is....
atmospheric = air = displacing electrons from oxygen ?
Salar style.... trail path would have a buffer of ( brine water ) which might act as a
containment sponge with ion retention dependent on hydroxide salts absorbing excess ions.
If accurate
one could test the Salars for ionic charge.
Salars could be highly charged with - ions - far beyond typical salt salars - due to uranium.
Retention buffers would be - water, other minerals - bonding with alpha / beta emitted ions forming compound bonds -
If there's excess ionic emission, cps - counts per second testing might come into play.
Excess Ions
If existing minerals in Salars are at full ion compound capacity,
would excess radiating ions rise from the water mix with air - develop into -radon / helium ?
From what i can gather,
Alpha particles move at very fast speeds when uranium decays.
Most all ionic metals are positively charged.
While air is negatively charged.
Air is cheap and readily avail.
The negative charged air = usable electrons.
Fast moving alpha particles ( must displace ) the negative electrons in air thus assisting
the process of helium conversion.
Adding oxygen to the Salar
would create an ozonated water effect ( triple oxygen bond )
Salars pregnant with urqnium / uranyls releasing alpha particles in enriched oxygenated
waters would increase the electron displacement thus multiplying the amount of avail
electrons one could capture.
Exploiting uranium's alpha / beta fast moving particles act as a work force of liberating
electrons - electrons can be used as direct electrical power purposing.
I mentioned Salars as the battery bank lab.
Yet... designing a scale containment lab using large vats would offer more control and
capture of electrons.
Prior knowledge from researching, graphite
graphite naturally accepts electrons.
Sponges, absorbs . ( carbon element facilitator )
Ideal for sponging and capturing the electrons.
Graphite Pipeline with ozonated water mixed with uranyls ?
Would be interesting to see how the uranyls act with oxygenated water and how much
electron charge is captured via graphite pipes.
- pipes full of oxygenated water + uranyls
- pipes half full of oxygenated water and uranyls - half air allowing alpha particle to
displace air electrons
These kind of ideas apply to - energy formation/creation.
I know Grosso's ------> lithium america has with in their name - energy company.
Such does lend the thought of - they must be thinking of making energy ?
Thought i'd offer a few ideas
ideas that elevate a junior from simple mining to ----> produce energy.
Far more profitable.
If it were me - managing 140 mile uranium trend....
I wouldn't be giving 80% away - lol
Small reactors are just now comining onscene - my hunch - will become very popular.
Cheers....