Post by
Wangotango67 on Oct 08, 2020 12:20am
MEGA WATT vs GIGA WATT
1000 MEGA WATTS
= 1 GIGA WATT
How many homes can a giga watt service ?
Probably right around 300,000 homes per gigawatt. O'Reilly: To do the math, 8point3 Energy Partners currently generates enough electricity to power about 200,000 homes, two-thirds of that.Feb 23, 2017
https://www.fool.com/investing/2017/02/23/how-much-is-a-gigawatt-anyways.aspx
May 6, 2011 — The short answer is about 725000 homes. But this assumes that consumption is steady, without peaks in the day time or during air conditioning season.
https://www.quora.com/How-many-homes-can-one-gigawatt-in-energy-capacity-provide-for
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RECAP - PREVIOUS POST
The highest example given in vidoe showed 2.8 milli volts per centimeter
That salt is not from a nevada salt basin...
I would suspect -
nevada salt basins would pump out more
= milli volts per centimeter
How many centimeters are there in a cubic meter ?
= 1,000,000
The example given in vidoe showed 2.8 millivolts
2.8 x 1,000,000 centimeters in a cubic meter
Therefore in one cubic meter there would be
= 2,800,000 millivolts
= 2800 volts per cubic meter
Millivolts to Volts calculator
https://www.convertunits.com/from/mV/to/V
Now ask - how much salt does Dajin have in thier basins ?
One only needs ot look at thier - Tech Report
showing total dissolved salts ( chlorides, sodiums, magnesium, lithium, calcium ) etc...
some readings are really high...
therefore = higher millivolts = all the more volts....
it takes 1 million volts to create
1 mega watt
therefore it would require 357 cubic of salt soil to genrerate 1 mega watt.
that's only using the salt soil sample in video...
what would a salt basin pur out - there's many more salts in basins.
1 km x 1km x 100m depth
= 1,000m x 1000m x100m depth
= 100,000,000 million cubics
div 357
= 280,112 mega watts ( in theory )
There's 1000 mega watts in a giga watt
therefore in theory using the above example
280 giga watts
but... suchwould have ot be proved.
no better way than testing the EC of the basin
If a salt basin could produce that much electricty...
well hello...even if a frzctionof what is calculated above would still be amazing.
yeah... i like my idea....
thing is... does Dajin ? ( lol )
If not - i''ll have to pass my idea on to another....
I'll give - Dajin a wee bit more time - if no news on testing the EC of their baisns...
I'll move on to another who will...
For ease of reference - here's the video - testing electrica lconductivity of saline soils
https://www.youtube.com/watch?v=AkrpgjpY_GE
Again - I will stress....
This is an idea of mine.
Dajin is not promoting this idea....
I am merely posting the idea for Daajin to warn up to.
In plight of... an alternative idea other than mining lithium due to the market conditions of lithium and competitors that have designed so many other forms of batteries for ev vehicles that may ( eventually ) cause a crux for junior lithium miners...An idea - that offers a potential solution otrher than mining lithium.
If my calculations are off..
i implore others to chime in and correct.
Thanks, in advance.
If Tesla was smart - he'd jump on this - team with this junior - and design transport trtailer
battery banks - and deliver to gas stations - whereas - ev cars could charge at
known locations - gas stations are distribution sights already set up - gas is already delivered this way - world wide.....this is how you deliver ev electricity without compromising the current electrical grids - wink....
Cheers...
p.s.
that's all i'm posting on this subject....
Its up to the junior to try it out....
NO GUARANTE that the junior will...
And no-guarantee i'll wait around forever...ha.
I like movers and shakers...