AS MUCH AS I LIKE 2012 MET STUDY -It does have it's flaws.
But also has some amazing secrets that could change the dynamics
of the current interpretation of, Wellgreens geology.
2012 Report
revealing of significant chloride. Chloride has gone under the radar for, years
while sulphide stole the limelight.
Steal the show how ?
Over the years, a strict guidence to, sulphide metallics.
Would do this.
Placing more emphasis on high grade sulphide ore
yet, this sulphide ore represents the least amount of deposit tonnage.
And taking greatest amount of ores and axing it ?
2017 did this.
They admitted sulphide ore was least then recognizized, peridotites as greatest amount
= would a gold miner axe their greatest amount of ores ? lol
= alter cutoffs ?
= or... keep greatest amount of of, and switch up extraction ?
Water + Air + CO2 Can weather a deposit - alter it 's state.
Wellgreen has seen it's share of,
incomplete drill holes, lost holes, broken cores etc...
= Disseminated ore body.
Could even point to,
Poorly consolodated, Secondary deposit.
= Hienz 57 geology reconsolodated.
= Host rockbed well below upper geology.
Throw in Wellgreen's various strata
- breccia
- gravels
- sands
- clayel
- dissemination
What do i see when i look at Wellgreen ?
- Lots of ( aqua colored geology ) at surface
- Chalcopyrite may have reacted to simple - acid rain and air.
- CO2 in acid rain + Atomospheric air = perfect for weathering ores
= Converting copper / Nickel to carbonates.
Throw is a healthy dose of, chlorite
= sulphide minerals converted to,
= Salt Chlorides / Carbonates
Chalcopyrite or Nickel Pentlandite can easily turn to - Chloride or carbonate
= if exposed.
In this superb photo of Wellgreen,
I can see, red brown iron, carbonate white, and a
shhhh load of aqua green.
Exposed geology, weathered by air, water.
= tells me.... ores are
easily ammendable with oxidation + water conversion = MHP solution hydroxide minerals
I'm not talking bout the metallics, or sulphide ores. Where one only targets sulphide mettalics.
I'm referring to the
other ores. = Ore converted by Chloride.
How deep would the chloride alteration go...? Upper hole - Lower hole of drill intercept ?
lol
What if geology was exposed at deeper depths ?
would more geology turn aqua green to weathering elements ?
What about older cores ?
CO2 SEQ ? What about wellgreens - waste ores ?
- Magnesium markets to increase by 6x by 2030
- Silicon carbide ( silicon + co2 )
Anyone seeing Mg or Silica credit in, economics ?
30% Gov't rebate ?
= Nope
Does rain have co2 ?
Yes.
CO2 introduced by way of seq program.
Yet, CO2 would by default create,
Carbonate nickel, copper, magnesium, silicon carbide.
Are these credits in our economics ?
Ha.
Cheers...