1 -MAP https://www.thoughtco.com/thmb/EH032HQznS_H66RsPdv7vk0MyLQ=/1500x0/filters:no_upscale():max_bytes(150000):strip_icc():format(webp)/rszNAMrad_U_let-bell-58b5a18b5f9b5860468da71e.png 2 - COLLOIDALS Uranium can bond to ( many other minerals )
Lithium, Boron, Vanadium, Barite, Mg, Ca, Na, etc...
even simple fluroine,chlorine, carbonic acids
Concentrations of U, Th, are already present in Sea, Ocean waters.
All the more salts ( salinity ) can increase the content of how many, U, Th bonds.
Alberta, Saskatchewan aquifers are highly enriched with salts.
Multiples times more saline than oceans.
Solubilized salts form mulibonds.
Uranium is referred to, uranyls in this dissolved phase..
There are several open source papers on Uranium in water, brines
as per Saskatchewan. Even Manitoba has papers on Saskatchewan uranium.
Unlike the map above.
Uranium values in brines vary and can exceed upto 50 ppm - 100's ppm
Interesting.
Question is put forth...
How much U, Th, is free roaming
How much U, Th are attached in multibonds to all other minerals incl co2 acids ?
Besides the 2.5 million cubic meter resource there's also 8 million inferred.
Salt aquifers are flanked by,
Shales, Sediments, Dolomites which begs...
once minerals are extracted would more released from the stratigraphy in which
replenishes the aquifer ?
Could one use induced chloride, carbonic acid, to encourage all the more bonds
to created a residual mine life ? ( encourage more bonds from surrounding stratigraphy )
3 - GRD
has rights to exploit the minerals
uranium, thorium, will bond to other minerals
denison implied it would also perform other measures ( drill, sample ) to augment value
yet... no mention of uranium.... only that direct brine extraction is very similar to denison's.
4 - HELIUM
Helium is present in this Kindersley zip code. ( Gov't research papers )
Helium, a key vector that points to uranium.
Uranium off gasses to helium.
Yet another, valued end product.
But no mention of.