Except forest fires do not produce CO2. They release carbon that has been temporarily stored in trees and is part of the carbon cycle.
On the other hand, by driving a car, you are adding to the atmosphere carbon that has not been in the cycle.
Btw, for the same reason, neither planting trees nor building cities out of wood will do anything. It is awfully hard to preserve wood forever in any large quantities that would make any difference.
> Except forest fires do not produce CO2. They release carbon that has been temporarily stored in trees and is part of the carbon cycle.
By that reasoning burning coal doesn’t produce CO2 either. It’s just a matter of the size of the time constant. Coal burning is just a forest fire with greater hysteresis.
The coal formed because plants produced lignin but there was no organism that was able to break it up, until fungi evolved. Now it is pretty much impossible for new coal to form in significant amount (except maybe for peat bogs) because every tree that falls will rot.
> Except forest fires do not produce CO2. They release carbon that has been temporarily stored in trees and is part of the carbon cycle.
I hope you are kidding.
The planet has had multiple cycles of atmospheric CO2 increases and decreases over millions of years. We have very accurate data to cover 800,000 years, where the range was between, roughly, 200 and 300 ppm.
The question is:
How did CO2 increase when humanity was pretty much insignificant and not burning fossil fuels? How did that happen?
The answer is simple: Massive, continental scale forest fires. Without modern fire fighting and mitigation technologies these fires burned for very long periods of time and razed areas the size of entire modern cities.
The average 100 ppm increase took about 100K years. Nothing other than fires could cause this change. Fires over a very long period of time.
The other question is:
How did atmospheric CO2 concentration decrease?
After all, we were not around to "save the planet" with technology.
Also simple: Rain, hurricanes, cyclones, weather and vegetation regrowth over 100K years. That's how long it took the natural planetary engine to react to a 100 ppm change in atmospheric CO2 and revert it.
Next question:
How did humans add another 100 ppm+ in such a short period of time?
Because we burned more forests faster than nature could have ever done on its own. Except we did this by burning oil, petroleum. One way to look at petroleum is that it is a highly concentrated form of plant and other biomass materials turned into goo we can easily burn. And so, by burning it, we engaged in the equivalent of burning entire forests on a daily, monthly or annual basis for the last several hundred years. As population grew, the more we burned. And here we are.
Forest fires absolutely produce CO2. That has been the cased for millions of years. If it makes your more comfortable to say they release CO2, so be it. That's fine. The net effect is the same: CO2 accumulates in the atmosphere and contributes to global warming. Same thing cars do.
The greater point is a dark one, and one most people are not ready to accept: There isn't a thing we can do about it. It's a planetary-scale problem that will take in the order of tens of thousands of years to affect. We can't do it.
EDIT:
One more question we should ask:
How many trees (or plants) went into creating one unit of petroleum?
"Can you imagine loading 40 acres worth of wheat – stalks, roots and all –
into the tank of your car or SUV every 20 miles?" asks ecologist Jeff Dukes,
whose study will be published in the November issue of the
Journal Climatic Change.
There's been a natural carbon cycle underway for millions of years. Wildfire is a core character. I'm not saying that tree farms are good or that we aren't doing a terrible job managing forests (or that climate change fears aren't being exploited for political and financial gain). But there is a fundamental difference between the "carbon cycle" and humans digging up / burning hydrocarbons.
> there is a fundamental difference between the "carbon cycle" and humans digging up / burning hydrocarbons.
There is no difference. The stuff we dig-up is the same stuff that was burning naturally in the form of trees and other biomass. It just happens to be a highly concentrated form.
The carbon cycle of plants isn't and has never been the only driver of what composes our atmosphere. It's a complex multivariate problem. The only difference here is that we are actually pushing ridiculous ideas about being able to meddle with forces and effects at a planetary scale when we can't even extinguish a coal fire that has been burning for a hundred years, much less one burning for six thousand years.
At some point we have to start recognizing that we are being sold absolute nonsense. This, BTW, in my opinion, also includes the idea that we are all going to turn into jelly if CO2 increases above what seems to be an ever-moving threshold.
I invite anyone who is open-minded enough to consider the idea that what they think they know might just be wrong, to go out and do something very simple: Buy a CO2 meter.
Take your CO2 meter with you everywhere and understand where you have been living. As I became more and more interested in understanding the subject, this is one of the first things I did. And what I learned was eye opening.
We live our daily lives in a range between 600 and 1400 ppm. This is true of probably most of humanity. The only exceptions likely being those who work in wide open fields. Maybe.
Here's a picture of my CO2 meter in the kitchen (no cooking at all for probably 12 to 14 hours):
I don't have a picture handy. In the car the number ranged from about 900 to 1400. The higher number came in once on the road. Numbers at the homes of friends and family and other business locations were similar. Last I checked, nobody is turning in to putty.
It is also fair to assume these conditions have existed in indoor living for a very long time. If we believe today's buildings are healthier than during a time when they burned wood for heat, well, they likely lived in even higher concentrations.
So, what are we talking about really? If your entire family and those of your friends and extended families, for generations, have been living in 600 to 1000 ppm CO2 concentrations. Why are we pushing a narrative of impending doom in a dozen years?
I look at this as the lunacy the Y2K problem became. It was going to be the end of the world. And then it wasn't. Except the opportunists pushing outlandish narratives made money and never paid a price for the consequences of the nonsense they pushed.
I firmly believe this is what climate change has become today. That isn't to say its not real. That is not what I am saying at all. It is.
What I am saying is that it has become a cult for political and financial gain. It will not destroy the planet or kill everything on it. And we sure as hell can't do a thing about it. We can't even put out coal mine fires and we have the hubris to claim to be able to "save" an entire planet. Please.
> How did CO2 increase when humanity was pretty much insignificant and not burning fossil fuels? How did that happen?
> The answer is simple: Massive, continental scale forest fires.
You are factually wrong because you don't seem to be getting the hang of this "cycle" thing.
If you are earning $100 from your employer every week and then proceed to give that money back to your employer within two weeks, are you saving money?
No, your net effect of the cycle comes to zero. Same as with trees burning up. See, trees are built of carbon taken from the atmosphere. The net effect of the tree growing and then burning up is exactly zero. Almost all trees will eventually burn or rot with the effect that forest do not materially influence amount of carbon in the atmosphere.
Humanity emits more carbon we dug from underground into atmosphere than is stored in the entire biomass, every 10 years.
This is the real culprit, not the trees burning up.
(Yet another way of thinking about forest fires is that they are promoting growth. When the old forest burns up there will be, for couple years/decades, a flurry of new growth that is making up for the biomass that burned up.)
> No, your net effect of the cycle comes to zero. Same as with trees burning up. See, trees are built of carbon taken from the atmosphere. The net effect of the tree growing and then burning up is exactly zero. Almost all trees will eventually burn or rot with the effect that forest do not materially influence amount of carbon in the atmosphere.
No, I am not missing this part at all.
The problem with the way you put it is that it does not include the element of time. And this is massively important.
The CO2 emitted by burning a forest the size of a city in just a few days isn't recaptured at the same time scale. In fact, the time scale looks to be orders of magnitude greater.
Forget about humanity for a moment (which is easy to do if we go back 50K, 100K, 200K years. Yes, CO2 was emitted through many mechanisms and re-captured. One of those mechanisms was massive continental-scale fires. There was nothing whatsoever to oppose them. No modern fire-retardant carrying aircraft, etc.
The natural rate of change for atmospheric CO2 is in the order of 1 ppm per 1000 years. Source [0], graphs [1], rate of change [3].
This rate of change --at a planetary scale-- exposes both the realities of natural atmospheric CO2 accumulation and capture.
From there it is somewhat easy to calculate the time required to recapture any CO2 added to the atmosphere. Since we don't have any technology today that can beat the natural rate of change, the only reliable metric we have is 1 ppm per 1000 years. CO2 doesn't magically hang around forest fires until, 20, 30 or 40 years later, it is recaptured. It contributes to global warming while trees are growing, for a very long time.
Side note: Lab experiments are irrelevant. We need something that works at a planetary scale. Nobody has shown a solution that can pass a physics test working at that scale.
Here's a simple article essentially saying the same thing [3]
Quoting:
"The idea that forest biomass is carbon neutral is not wrong. Trees absorb carbon from the atmosphere as they grow. So if a tree is burned for fuel, the thinking goes, another can be planted to replace it. And then that replacement tree should eventually re-absorb the carbon.
But while burning wood immediately releases carbon, it takes decades or even a century for a replacement tree to absorb the same amount of carbon. In the meantime, all that atmospheric carbon will continue to drive climate change."
That is the problem. You are not including time as a variable in your mental model of how this works. That time scale is easily in the hundreds of years, particularly if you include what happens with soil, root system and natural vs. managed forests (as discussed in the article).
> That is the problem. You are not including time as a variable in your mental model of how this works.
People are absolutely including time as a variable here. What they're not doing is pretending that time is the only variable.
I can't tell what you're arguing here at this point. This thread seemed to start with you disagreeing (in a very long winded and winding way) that trees are a materially different sort of contribution to the carbon cycle than fossil fuels, but that's precisely where time matters. Every subthread you go on a different tangent with the only unifying theme being "fuck it we can't do anything even if we try" which, sure, that may be true but it has little to do with whether there's a short term carbon cycle.
50 year old trees can only contribute carbon back from 50 years ago or less. They slowly absorb and, given the total biomass of the planet vs the amount burning at any given time, also slowly release it back.
Short of burning down every tree on a continent and preventing any regrowth (probably an even harder project than carbon capture tbh), there are limits to how much carbon surface cycles can add to the system.
Even taking a pessimistic view of how long it takes for a burned tree to have its released carbon captured, the calculus we're faced with (if we insist on burning anything at all at scale anyways) is:
Burn trees: add carbon to the atmosphere that will be reabsorbed by a roughly equivalent amount of plant matter in a century, or
Burn fossil fuels: add carbon to the atmosphere that requires a net increase in planetary plant matter to be reabsorbed.
One of these is clearly better than the other by quite a bit, and saying otherwise is verging on nihilism.
Also you keep saying that no system is 100% efficient but planetary atmospheres are about as close to one as you can possibly get. If the carbon cycle weren't extremely efficient, earth would be like Venus by now.
You are arguing against things I am not saying at all. Not sure how to respond. Please don't misrepresent my position. If you don't understand it, because, perhaps, I am not being clear enough, ask and I'll try to clarify.
We don't "insist" on burning anything. For lack of a better explanation, it just happens.
In the last week in Southern California we probably had somewhere in the order of 20,000 acres burn down. That CO2 isn't going to be recaptured by trees for, more than likely, centuries. Those 20,000 acres are not going to be repopulated instantly. A fully grown tree can capture about 25 kg of CO2 per year (species dependent). Yet, that takes time. A seedling can't capture 25 kg per year. The capture rate is likely closer to a sigmoid curve, likely without a flat top. That sigmoid curve for CO2 capture does not start until way after the 20,000 acres burned down. It is probably fair to say the capture rate is insignificant for a year or more. Add this to the fact that atmospheric CO2 hangs in the atmosphere for hundreds of years and you have a cycle that isn't as squeaky-clean as these arguments about trees make it sound.
In CA, annual fires produce the equivalent of 1/4 of the CO2 produced by the entire transportation sector.
We are in a drought. What do you think the regrowth rate might be here? I have no clue. Yet, I think I can guess: Not great.
We engage on all of this hand-wavy-ness about trees being great and ignore all other variables. Time seems to be the most egregious one. Most discussions seem to assume a seed is capturing carbon at 25 kg/year. That's the only figure I see quoted when searching for this kind of information. Actually, no, I've seen numbers all the way up to 40 kg/year. This is preposterous. Once you get past that, then there's rate of growth and the realities of achieving a rate of growth (for example, burn down 20,000 acres in CA and you have no water to encourage rapid growth).
Of course, there's more.
We now know, with a great deal of certainty, that we have very large forests that are actually net CO2 contributors, rather than what we used to believe. These are important revelations that nobody is talking about, because, if you dare mention these things you are labeled as a nut. Well, it is a matter of well documented science. Not sure what else to say.
What everyone is ignoring in the general climate change debate is that we cannot materially improve the natural rate of change of atmospheric CO2 reduction, which sits at about 1 ppm per thousand years. Any purported solution out there quickly dissolves into nothing once having to pass the test of physics at a planetary scale. And yet here we are, pretending that we can accelerate this process by many thousands of times with nothing to support the assertion.
The baseline from which every single proposal has to be measured is something that is both extreme and known to be true. We have this data from atmospheric ice core samples going back 800K years. What it says is very simple: We know what would happen if humanity did not exist at all.
The best we can do for the planet is leave. Talk about carbon neutral! We cannot do any better than that without requiring insane amount of energy and materials, which, of course, likely means we add CO2 to the atmosphere, which defeats the entire purpose.
The ice core data shows us exactly what would happen if we were not here. That rate of change is in the order of 1 ppm per 1000 years. Any purported solution has to explain how it is better than us just leaving the planet. If it can't, it isn't a solution at all, it's a fantasy. Solar panels are not going to do it and trees sure as heck can't. We are living in a fantasy and everyone is buying it without question.
This is not to say that we should not clean-up our act. There are excellent reasons to do that. We just need to stop this madness about saving the planet. We can't.
Weird .. and here I was naively thinking the dominant process for past increases in C02 prior to the Pleistocene+Holocene was magmatic processes and could be demonstrated by examining the isotopic fractionation between inorganic and organic carbon.
"Dominant process" implies other processes .. it's difficult to know all the details of any such complex transforms .. it's less difficult to pick out the major contributions by scale from the signature after traces.
You're correct that fossil fuels are buried sunlight from many many millions of years ago and bringing them to the surface now is the major factor contributing to our current swing against the norms of the past 800K years re: climate.
With forrest fires, unless there is burial and no regrowth, we are very much looking at the surface carbon cycle; trees grow (capturing carbon), burn (releasing carbon), cycle, repeat.
It takes a major expansion or a major reduction (significant in terms of Earths surface) of forrests to alter the over all long term balance; forrests to peat bogs, peat bogs drying out and burning is another big shift on the accounts .. but again these are the "near surface" accounts of organic carbon.
These differ (by isotope) from deep carbon bought up to the surfce (from FF) and from magma carbon.
> With forrest fires, unless there is burial and no regrowth, we are very much looking at the surface carbon cycle; trees grow (capturing carbon), burn (releasing carbon), cycle, repeat.
The point is that this cycle isn't anywhere close to 100% efficient and takes orders of magnitude more time to reverse than the time it took to burn it. On top of that, atmospheric CO2 hangs around in the atmosphere and is incredibly difficult and grotesquely inefficient to remove.
As I mention in another comment, here in SoCal we recently had a fire --one of many-- that took out over 5000 acres in a matter of two to four days. The recovery of that land, the regrowth, will likely take twenty years (how long does a mature tree take to grow?). The CO2 released in that short event will take orders of magnitude more time to be re-captured. It doesn't hang around over the burn area waiting to be absorbed.
The natural rate of change for atmospheric CO2 concentration reduction is in the order of 1 ppm per 1000 years. That figure comes out of ice core sample data, which is very accurate. Anything that claims a significant improvement to that rate of change must come with equally significant proof.
We have people claiming we can drop atmospheric CO2 by 100 ppm in twenty years. Put a different way, they are saying they can do what nature does in 100K years in just 20. This is a rate of change with a slope 5000 times faster than the natural rate...and nobody seems interested in questioning it. It's one thing to achieve this in a lab experiment. Quite another at a planetary scale.
And so, my point, with regards to forest fires, is two fold: The net effect is the same, meaning, CO2 in the atmosphere. Second, the CO2 generated per unit time isn't recovered at the same rate. It is recovered orders of magnitude slower. Therefore, forest fires are likely just as damaging (in terms of atmospheric CO2 accumulation) as burning any other fuel.
>> Therefore, forest fires are likely just as damaging (in terms of atmospheric CO2 accumulation) as burning any other fuel.
On a natural scale (100 years as a base unit) they are distinct from the carbon dragged up and released from where it was buried millions++ of years ago.
As far as human activity goes we as a global race do need to put back forest growth we've clear felled, drop our ongoing and ever increasing emmissions, and claw back through capture the excess we have emitted in the past century.
This will take both time and significant mindset change; the myth of unlimited growth as 'good capitalis' needs to die.
On the matter of time scales, here's a nice bit of work revealing a 14 million year wet woodland mass emerging from a receding sea:
Research reveals secrets hidden in Nullarbor’s not-so-featureless plains
> On a natural scale (100 years as a base unit) they are distinct from the carbon dragged up and released from where it was buried millions++ of years ago.
Of course. Where they are no different from each other is that, once in the atmosphere, it makes no difference which one you have, you are growing a blanket over the planet. This is why I say it is just as damaging. CO2, regardless of source, "sticks" to the atmosphere for hundreds to thousands of years. Same effect.
> As far as human activity goes we as a global race do need to put back forest growth we've clear felled
Definitely
> drop our ongoing and ever increasing emmissions
Agreed
> and claw back through capture the excess we have emitted in the past century
That would be nice. I have yet to see any evidence that we can really do this at a planetary scale. In the lab? Sure. Planet? At this stage, I don't see any evidence of that being possible. Lots of purported solutions; none seem to pass the planetary scale physics test.
> This will take both time and significant mindset change
The part where I hyperventilate is the time element. We actually have politicians pushing the idea of saving the planet in a few dozen years. That is preposterous. In a rational environment these people would be laughed off the stage. You simply can't change something like this, of planetary scale, in a few years, and likely not in even in a few centuries.
This is the paper [0] that, years ago, really got me interested in understanding what was going on; to try to separate facts from fiction. It hit me like a bucket of cold water. I was all in on renewables and everything we were being told would reverse climate change. I built a beautiful 13 kW solar array on my property (soon to expand to 20 kW). Soon after that, as I gained experience with my system and started to analyzed the performance and data, I realized we were being sold a bunch of nonsense about solar. And then I read this paper. It was a shocking revelation that launched me into research and questioning absolutely everything for about a year. This work and experience is where my position on this general topic comes from. I see a lot of hand waving and a lot of claims. I have yet to see anything that passes the physics test at a scale that is even a reasonable fraction of the planetary scale of this problem.
Note that none of this is about denying what is happening. When I get into conversations with people one of the first attacks I am subjected to is an accusation of being a denier. Nothing could be farther from the truth. This is real. What I am saying isn't real is what we are being told about what we can actually do about it.
And yet, I must clarify. This does not mean we should not clean-up our act. I agree with what you said about what we must do. My objection is that the political and money-grabbing forces behind the climate change industry are connecting one to the other as if it were a magical solution. These are lies. Nobody has shown this can be done. For obvious reasons, I would be more than happy to be proven wrong on this. We are all on the same boat.
All I want is honest conversation and for the powerful political forces to not force or otherwise compel our scientists into sticking with the chosen narrative. This paper is very unique. A university research team would commit suicide if they published something like this. Grants would evaporate and careers would be ruined. That, sadly, is the reality we live in. One that really bugs me to no end.
Of the anticipated side effects of anthro climate change increased forest fires -> more C02 in atmosphere until trees grow back to match isn't a biggie, C02 isn't the most insulative of the gases to worry about, it's the methane and water vapor that will really push this to another level .. that's just physics.
>> You simply can't change something like this, of planetary scale, in a few years, and likely not in even in a few centuries.
As a counterpoint we, as humans, got here in roughly 100 hundred years with the bulk of the damage done most recently.
Although most of that can be cast at "advanced western civilisation" and ideas of capitalism based on unlimited growth etc. Not really something that culturally had much traction with my people, but we are all the shit together.
I'm fairly optimistic that we (locally, here in W.Australia) can hit production of 15 million tonnes / per annum of green hydrogen by 2030 (that's generative from renewable eneragy with no "blue hydrogen" from natural gas).
Small beer against the petawatts required on a global scale but we act locally and ask that others make some kind of effort to match.
> As a counterpoint we, as humans, got here in roughly 100 hundred years with the bulk of the damage done most recently.
Right, of course. In the simplest possible terms, causing a mess is always easier than cleaning it up. That is true in every sense; time, energy and resources.
I tried to answer this question in my research. In other words, if we can make a mess in 100, 200 or 500 years (take your pick, we started burning oil a long time ago), why did we make such an impact and why is it that we can't clean it up just as quickly.
In the end I think it boils down to energy. It's a long topic. I'll try to summarize it as best as I can.
When we burn one liter, gallon or barrel of oil we are burning a concentrated form of energy that took mountains of plant and other matter and an unimaginable amount of time and energy to produce. I have not run the numbers at all. I would not be surprised to find out that the only energy source on earth that is denser (per unit mass) than oil is nuclear.
A loose way to think of this is that each barrel of oil burned might represent burning down a forest-load of trees. I can't calculate an accurate number because it is so hard to get reasonable estimates. Just judging from the results then: If, in 100 years, we did what normal took 100K years (a 100 ppm increase in atmospheric CO2), then (very hand-wavy now) we are burning a thousands times more fuel per day than whatever occurred in the natural cycle.
This is, in my opinion, also why we just can't fix this without, I don't know, magic of some fundamentally incredible discovery of the scale of the Theory of Relativity. We need a ridiculous amount of energy and resources to fix this. Most people think local/laboratory, when, in reality, this has to be viewed at a planetary scale. And, at that scale, we might just need more energy and resources than exist on this planet if we claim to be able to fix this (drop it by 100 ppm) in 20 to 50 years.
I would really like to see honest scientific conversation around this reality.
Why?
Because, if it is true that we cannot fix it, we should be investing money, resources and brain-power on how to deal with it.
I don't think I am wrong. I have yet to see any proposed solution --of any kind-- prove viability at a planetary scale. If I am right, we are wasting valuable time and resources.
I just read this article this morning [0]. Quite a revelation. I am still trying to understand it. No conclusions on my part yet.
There's so much we don't know. And, again, to be repetitive, we can barely control things at a local level (coal and forest fires) and we are actually claiming to be able to fix an entire planet in two decades. At some point one has to take a moment to think that this might just not be a reasonable claim.
I'll repeat that none of what I say is to propose we do not need to cleanup our act. We definitely do, at all levels. I just don't want lies about why we should do it. And, of course, I firmly believe nuclear is the solution to energy generation. From what I've seen so far, nothing else can compare, not even close.
> I tried to answer this question in my research. In other words, if we can make a mess in 100, 200 or 500 years (take your pick, we started burning oil a long time ago),
Start from ~1880 or so, look at the records for (deep underground) oil consumption (as opposed to whale oil) and watch the consumption rates slowly ramp up with the adoption of cars, the industrialisation of WWI and WWII, and the post war boomer era ... it's not so much the "burning oil" that is the issue, it's the sheer scale of it once it really ramped up.
> .. We need a ridiculous amount of energy and resources to fix this. Most people think local/laboratory, when, in reality, this has to be viewed at a planetary scale.
Regardless of the vast base material tonnages and time to decay, compress, and transition that funnel INTO a barrel of oil, what's at issue is the percentage of that barrel that finds it way into the atmosphere as C02 and the means by which we can reduce that total and means by which we can extract C02 over the Holocene mean quantities.
I'm not sure how your hard numeracy | physics | technical paper reading is, but have a look at the mean estimate of daily global energy consumption by humans (petawatts) and the daily energy fall on earth from the sun .. now you have an order of the energy at play here.
Yes, this is "moving Mt. Fuji" scale engineering that needs to take place across the planet, yes there are existing companies that already work at this scale - the daily energy and material needs of human consumption are met by the likes of Rio Tinto, BHP, Exxon, BP, et al.
Two decades isn't the timescale for a complete fix, two decades is the time to make a hard start on getting stuck into breaking the back on attack of a hard problem .. bear in mind the problem grew exponentially over 100 years from sweet FA to ever more every day, the pullback has the advantage of already having industry at scale, the challenge is to address the solution.
Re: your [0]
This is an Oak Ridge PR release (not the core technical papers) announcing they have a better grasp on part of the preexisting "non human status quo" carbon cycle - this is good to know and useful, but isn't carbon | methane emissions that are causing the "increase over the norm" that we have seen, this is "the norm" that acts as the reference base.
The paper is linked in the Oak Ridge release. That's what I am reading. I can't say anything intelligent about it yet. I do have a full time job that consumes 12 hours a day, almost 7 days a week (the life of an entrepreneur). Posting here takes far longer than I should devote to this.
The fallacy with the commonly used argument about how much solar energy comes into the planet is one that ignores the fact that this energy isn't, for lack of a better term, doing nothing.
A silly comparison would be to say something like "look at how much energy I have in my Tesla" and then attempt to use it both to drive the car and power your home. Sure, you can theoretically do both, yet the car's range will be greatly reduced and your home will go dark in less than a day.
The assumption that we have so much energy often treats this as excess energy. Well, it isn't. We can only tap into it so much before we start to affect other things. It's Conservation of Energy at its most based: It can't be created. It is transformed. Right now, all of that energy from the sun is in use. It is being transformed into so many things it is impossible to list them.
The estimates for just how much energy is required to extract CO2 from the atmosphere at a global scale are not very accurate. This is to be expected. No technology exists today that can do this at that scale. The numbers range from a requirement of 25% of all the electrical energy produced in the world to somewhere around eight times the worlds electric power production.
Either end of that scale is a disaster of global scale waiting to happen. We can't go there. We probably have to quadruple energy production world-wide and might still be short. Not to mention the massive consequences of producing that much energy. Energy is transformed from one form to another and every time you do that. Heat, for example, is a byproduct of almost any transformation.
And yet, there's another reality. All of this is absolutely futile unless we stop generating CO2. It would be a sad joke to quadruple world power generation (not sure it is even possible) only to add more CO2 than we can extract in the process.
You don't quadruple anything at a global scale without producing an unimaginably large amount of CO2 and waste material.
Restricting this to the US. We have to convert our entire ground transportation system to electric power. Sounds great. So long as one does not run through some of the basic physics of what that would mean.
A few years ago I wrote a simulation in order to try and understand just how much more energy the US would need to go 100% electric. I divided the population into time zones, created thousands of behavioral patterns based on such things as drive distance, fast and slow charging, urban vs. rural, etc.
The simulation resulted in a range between 900 GW and 1400 GW. This is additional power, over and above what the US produces today.
How much is that? We produce 1200 GW of power today. That means a vast nation like the US would need to create a full duplicate (in terms of power) of the current power system. And I do mean this in the full sense of the term. The wires we have carrying power today could not handle transporting twice as much. The entire power distribution grid needs to be rebuilt to double its transport capacity.
It is important to have a sense of proportion for things at this scale. A typical nuclear power plant produces 1 GW. In other words, the US would need to construct over a thousand nuclear power plants just to enable electric cars.
This will not get us to zero carbon emissions. Not even close.
And then we have to produce even more power to eventually run carbon capture systems. That could very well mean adding another 500 to 1000 GW to the power grid. Nobody knows.
Once you start looking at the subject while exploring all the requisite tentacles, it is hard to avoid the thought that, at best there's a high level of hubris involved. An honest analysis of the matter includes conclusions such as the cost of oil having to come down to $20~$40 a barrel. This sounds crazy, until one looks at the cost of infrastructure and carbon capture systems at a global scale, all of which are driven by transportation and other costs that are inextricably linked to the cost of oil. Simply put, in the US alone, we cannot afford to engage in infrastructure construction at such a scale...with fuel at these prices it is impossible to pay for it.
This topic isn't simple at all. And it sure as heck does not benefit from people coming at it from a blind ideological perspective, as many (most?) do today.
> The fallacy with the commonly used argument about how much solar energy comes into the planet is one that ignores the fact that this energy isn't, for lack of a better term, doing nothing.
Whereas I merely suggested you look at the daily global human use energy numbers AND the daily mean solar fall energy.
> No technology exists today that can do this at that scale. The numbers range from a requirement of 25% of all the electrical energy produced in the world to somewhere around eight times the worlds electric power production.
Hence the need to build such tech asthere is no where to go buy it.
How long ago did humans use 25% less energy than they do today, how long ago was the total global human enrgy demand less than an eigth of what it is today?
I'm not a fan of wesetern consumption, but the ability of humans to do things at greater and great scale has expanded beyond linear .. which is a reality to factor into any modelled proposed solution.
As I mentioned we (locally) are designing and preparing to build hydrogen generation infrastructure now in the same manner in which we built mining infrastructure some 40-50 years past that put anything comparable within the USofA to shame.
> And yet, there's another reality. All of this is absolutely futile unless we stop generating CO2. It would be a sad joke to quadruple world power generation (not sure it is even possible) only to add more CO2 than we can extract in the process.
> You don't quadruple anything at a global scale without producing an unimaginably large amount of CO2 and waste material.
It's not that we can (or should) stop generating C02, it's that we need to slow and eventually stop net C02 increase while actively acquiring and deploying the means to reduce net levels; to which a multi pronged approach is required- population reduction, mean consumption reduction, tree planting, change in agricultural practices, etc.
> Restricting this to the US. We have to convert our entire ground transportation system to electric power.
Throw in * build the public transport the US allowed the Koch & Co to lobby them out of, change the "me me me" mindset that encourages oversized yank tanks and excess consumption, etc.
Point being, it's not just a "tech problem" - there are social aspects, education, lifestyle et al.
> This topic isn't simple at all.
It is rather thorny.
The other key thing about oil is we have already reached "peak oil", the Saudi fields are already on the downslop there, globally availibility will decrease and demand and extraction costs rise.
I thought most of our fossil fuels come from a time before fungi evolved the ability to digest lignin and other plant tissues. Thus piles and piles or wood and other detritus would end up undergoing very inefficient/incomplete combustion or being buried without decaying for a long time.
So basically that amount of sequestration could not happen again without some technological help now that the “digesting wood” abilities have become commonplace.
On the other hand, by driving a car, you are adding to the atmosphere carbon that has not been in the cycle.
Btw, for the same reason, neither planting trees nor building cities out of wood will do anything. It is awfully hard to preserve wood forever in any large quantities that would make any difference.