PART 2 - IDEASIf a junior has sulphide veining at surface,
- apply for a bulk ore permit of, 5,000 tonnes
= enough for 20 hydrogen projects ( reserves - moved to other location )
466 million shares out - announce - shift to hydrogen energy sector
After transition, After 5,000 t reserves secured
Announce spin co
New spin co hydrogen company
466 million shares remain static
10:1 applied to new spon co resulting in, 46.6 million shares out
shareholders are now grafted in new spinco co
and, still have original shares in, wellgreen.
Grow hydrogen business
Upon spinco stock rising to - $4 / sh
Spinco buys the NCP wellgreen @ $1 sh
= $466 million ~ $4 = $
116,500,000
= $116,500,000 ~ $4 = 29,125,000 million shares of new spinco
= 75.7 million shares out Junior has now achieved
- phoenix transition - all former shareholders grafted into new spin co
- reserves enough for 20 hydrogen projects
- 75.7 million shares out ---------------------------------------------------------------------------
5 Canadian Gov't tax rebates 1 -
The Clean Technology ITC: A refundable tax credit of
up to 30% 2 -
The Carbon Capture, Utilization and Storage (“CCUS”) ITC up to 60% ( air ) 3 -
The Clean Hydrogen ITC: A refundable tax credit of
up to 40% 4 -
The Clean Electricity ITC: A refundable tax credit of
up to 15% 5 -
The Clean Technology Manufacturing ITC: A refundable tax credit of
30% LINK
https://www.fasken.com/en/knowledge/2023/12/canadas-proposed-clean-energy-tax-credits My wonderment is, Are these reoccuring tax rebates ( annually ? )
If so, a
project could be written down - initial expenditures over several years ?
# 1 - Property
# 2 -
refer to end of post # 3 - Hydrogen Plant
# 4 - Hydrogen Turbine that produce electricity
# 5 - Extraction and processing SRC )
Could a project qualify for all 5 tax rebates ?
If plausable - how much savings could be attained ?
#2 - carbon capture by air It does not say - sequester.
By default - hydrogen production ( splitting of water ) also produces - air
Air, naturally bonds to carbon monoxide.
Creating - carbon dioxide ( 1 carbon 2 oxygen )
Carbon has an atomic weight of 12, oxygen has an atomic weight of 16 and CO2
has a molecular weight of 44 (1 carbon atom [12] + 2 oxygen atoms [2 x 16 = 32]).
Therefore CO2 is 3.67 times heavier than carbon (44 ÷ 12 = 3.67) Carbon dioxide is a gas. The density of a gas increases as temperatures get colder. So, because temperatures decrease as we reach higher altitudes, gases become denser at higher altitudes. Denser objects tend to sink, pulled down by gravity.Sep 23, 2020
If Carbon eventually descends due to, denser molecular weight due to,
- added oxygen molecules.
- colder air at higher altitude
Could hydrogen production plants be considered as, carbon capture using, air ?
Eventually falling to earth, providing co2 plant food ?
Or, oxygen released into atmosphere - offsetting co2 with freshly produced oxygen ?
Building up offet carbon credits - sold to others who need to offset their co, co2 emmissions ?
This post is not investment advice.
Simply, offering ideas to junior.
Or, keep the present course, drill with few press releases.
Election year, hmmm.
And read between the line with USA and new AI metal price setting.
2 yrs out - 2026 ( goal posts shifted again )
with the buzz words national security + other....?
Critical Minerals.... are more valuble than most think.
Cheers...