RIVER / NICKEL = HYDROGEN PART 2 I was going to send Sean an email, maybe another could pass it forward.
Good day Sean,
Here's a quick video showing how a small hydrogen generator cell can prodcue 38/L of hydrogen every minute = 54,720 Liters of hydrogen in a 24 hour cycle.
Now imaginge scaling this -
for an entire mine production facility - using the hydrgoen fuel to run a electrical generator.
Running all, mine equptment, fleet of trucks, etc.....
In one European ev car report - It is said, a small ev econo car can run nearly 100/km on 1 liter of hydrogen - I truly feel the river that courses through your claims is a vital means of free energy - which could dramatically place EV Nickel with at an extreme vantage over other peers.
Electircity produced form, river turbines = feeds power to a hydrogen fuel cell = splitting the salt mixture water with nickel / carbon anode / cathodes.
Goodness, if one has access to free power created from river turbines inwhich ( augments ) all the more power with mega hydrogen then, this is the type of scaling ( compounding energy ) that creates mega power to operate a full mine plant - such is very rare - even as much as, excess power that could be sold back onto grid with resulting in, a kickback energy credit.
One of the main issues in the hydrogen / industry is the high cost of transporting hydrogen - rethinking this concept of tranporting to = creating small fuel cell plants to run entire towns or small cities - in a value of, decentalization - eliminating the need to transport the hydrogen gas - this is yet another entire business unto itself - which sparks the idea of, selling the energy package to others - have river = buy our nickel hydrgen plants - or.... sel lthe hydrogen to nearby end users - what if an entire small city converted to hydrgoen cars and a junior supplied the hydrogen to consumers with their own fuel stations - one then becomes an energy supplier - one would be catering to so many others that prefer hydrogen vehicle vs ev's - which is a market that is exponentially growing - with few in this sector = all the less competition .
Whne it comes to nickel - most think... nickel ev batteries or stainless steel industry, or large energy storage... but... i prefer to think of battery metal juniors as - future energy companies or energy producers ( hydrogen generation ).
This video ( link below ) makes a compelling case for - hydrogen energy production - imagine promoting a future mine operation that creates all its own green energy - using river water and nickel ot split the water ?
I will add, CAT is converting a few of thier engines to handle hydrogen fuel - could be ideal to have a hydrogen fuel station onsite making it all the more convenient for mining trucks to fuel up - in addition to hydrogen/ electrical to power entire mine plant - I'm sure this video will inspire you to rethink how Langmuire / Carlang could be viewed as a top contender drawing all the more interest and perhaps chosen over other peers due to, river vantage = green hydrogen potential - and veering away from the carbon trap - to streamlining into chloride nickel electrolysis - thus reducing much time with al lthe more profits than a simple concentrate. I'm pretty sure no other nickle junior in the Timmins area, has the vantage of an onsite river -
After viewing this video,
I'm sure it will fuel all sorts of ideas - ideas that assist in reducing energy costs which translated into all the more profits.
Thanks for your time,
Kind regards
DRY CELL - 38/L per min = 54,720 L per day
https://www.youtube.com/watch?v=4lrBcof0d-0
I could see one setting up,
several units for a mine operation.
Ideas like this....
can take a junior from once thinking - sell concentrates to.... actual mining.