careinke wrote:Well lets walk through the math, but first how long does your method last? I'm not sure I fully understand it. Anyway, lets get back to your questions.
It lasts as long as the formation I pump it into doesn't release it updip 50 miles away at outcrop I suppose. So if the formation doesn't outcrop, we are talking millions of years?
careinke wrote:Unfortunately, my sources use different measurement standards sometimes in the same paragraph so some number crunching is involved. Feel free to correct my math.
Here are my two sources for my data:
https://www.statista.com/statistics/276629/global-co2-emissions/ This graph shows we produced 37.40 Billion metric tons of CO2 in 2022 ( a metric ton is 2204Lbs). So I'm not sure where your GIGA Ton claim comes from. This works out to 82,429,600,000,000 Lbs. of CO2.
A gigaton is one billion metric tons. A gigawatt is 1 billion watts, a gigaton 1 billion metric tons. So in your numbers we produced 37. gigatons of biochar. Used when bandying about global climate sized numbers because no one wants to use all those zeros.
careinke wrote:https://www.arti.com/20-metric-tons-of-co2-sequestered-40-yards-8000-gallons-of-biochar-on-the-way/This site claims: 1 gal of biochar sequesters 6lbs of CO2. With 7.48 gallons in a cubic foot, that works out to 44.88lbs of CO2 per cubic foot or 1,211.76lbs per cubic yard.
So, How many cubic yards of biochar would be needed to sequester the entire 2022 CO2 production?
82,429,600,000,000lbs (CO2 emitted in 2022)/1211.76lbs (pounds of CO2 sequestered in a cubic yard of Biochar) = 68,024,691,358 Cubic yards of Biochar needed to COMPLETLY remove all the CO2 man produced in 2022. With a world population of 8 Billion, each persons responsibility would be around 8.5 cubic yards of Biochar.
The creation of biochar requires energy. Here is a study doing some
cost estimates of creating biochar to sequester which seems to indicate this:
Finally, we estimate the cost of carbon sequestration for the five technology pathways
currently used in Massachusetts. While the technologies differ, final sequestration costs
are similar, ranging from $82 to $119 per ton of CO2, with a mean of $102/ton CO2 for
the four commercial-scale technologies
So, using your figures, and feel free to check my math as well, each person responsible for 8.5# of biochar sequestering 6# of CO2 would be each person sequestering 51# of CO2.
Here is a link to
making biochar in ones backyard. The way all these individuals might. Note the procedure. Now, here is the way the world envisions
that people will be living. Particularly how most folks in the world might be living. Compare how individuals make biochar, with how they live that isn't rural anywhere (where most of the people aren't). A picture for reference.
How might you think we can square that circle? In the procedures themselves they are warning about creating smoke and whatnot and irritating you neighbors and causing pollution, etc etc. Are you sure that biochar is a solution while creating air pollution to such an extent that even your neighbors in an area where burning is okay are irritated?
careinke wrote:Of course we really don't need nearly that much to bring down the CO2 levels world wide. growing things absorb some of the CO2, so do oceans and other environmental forces. Over the last 82 years the rise in CO2 production has been about .39 Billion Metric tons per year or 859,560,000,000lbs of carbon which = 709,348,385 cubic yards of bio char or 0.08866 Cubic Yards per person = 2.40 Cubic Feet per person, which sequesters 106.56lbs of CO2 for a hundred generations or more. If we doubled the number to 5 Cubic Feet per person, we could get back to 1940 levels in half the time and probably start a mini ice age.
Sounds good. Beyond getting waste organic elements to folks in apartment buildings and the wood or coal or whatever to heat them up and hoping they can be doing this burning and heating things on the roof or down on the sidewalk, I completely agree that growing things that require CO2 makes perfect sense. Of course, we would need to stop cutting everything down instead to make room for roads and buildings and normal economically driven growth, would you happen to have any thoughts on how economic activity in general (the prime driver in CO2 emissions) can be tamped down at the same time?
careinke wrote:Personally, I'm planning to produce around 13.5 Cubic Yards of Biochar a year, which covers a 72.9 people at 5 Cubic Feet. So we need another 111,111,111 people doing what I am to cover the world. Actually, far less as their are a growing number of commercial enterprises making thousands of tons of biochar and selling it for as little as $150/CY when ordered in lots bigger than 14 CYs. This way rich people can buy carbon offsets for their carbon intensive lifestyles similar to Plants.
My nearest neighbor is about 10 yards away from the sides of my suburban house, and I've got maybe 20 yards to the fence of the neighbor behind me. Typical suburbia. I'm betting you aren't constrained as such. Any ideas on what local rules where most people live (cities, suburbia, etc etc) and how far back these rules would need to be rolled back to when everyone was using wood stoves in order to free up the ability of everyone on my block to begin what most closely resembles burning our garbage like we did in the old days?
It has always struck me that single solutions might fit one set of circumstances/living style/region/country, but certainly might not fit another. The folks deforesting the Amazon for example, they would be great biochar creators, they have all this waste organic material laying around (from cutting down the forests to make room for ranch land), no one minds the particulate pollution because there aren't many people around and if they complain, the would be farmers and government just kill them, and if it weren't for all of this accompanying deforestation, it would be great.
I might venture that simple solutions, or single solutions, might not be as scalable as some might think, as they apply their solution to their circumstances, but not that of others.
careinke wrote:Just think for a mere $4K a year you can go on with your old carbon intensive lifestyle knowing you have paid your penance to the little woke proles.
Well, after I get the local air pollution laws changed (including those laid down by the EPA in areas with a past record of pollution being remedied by the Feds), all my neighbors can be convinced to do the same as we send up pyres of smoke from our biochar manufacturing and then trying to convince the county that this is for the good of CO2 sequestration, let alone the EPA.
careinke wrote:In conclusion with: reduction in ICE vehicles, rising oil prices, rising BIO char production, increases in solar power, increases in wind power, elimination of oil based fertilizers, pesticides, and hampering new well construction, we have this global warming thing under control.
Peace
You sound pretty hopeful Hitman. And more rural than most. I do hanker for the days of burning our trash out back near the corn field, growing our own food, or trapping or shooting it, with 100 acres of wooded hills to wander around on doing as I pleased, but it has been many a year since America was more agrarian than not. The solar and wind stuff seems to be progressing, EVs show some signs of being useful, good luck with pesticides and fertilizers, and the oil and gas industry will stop drilling new wells when they can't afford to make a good return on their investment (which could be lower demand and corresponding prices) or the practice is banned outright. I think Greenland will melt before that happens, but we are all allowed to be optimistic, each in our own way.
