I'm excited for technologies like this to become available for regular individuals. I'm not sure what the current figure is, but in 2008 the average American was responsible for 20 tons of co2 every year[1]. At $600/ton[2], that's roughly a $12,000/yr unpaid externality on the American lifestyle.
It's likely that even with incredibly aggressive elimination of co2 waste, several economic sectors will continue to produce significant amounts of co2, and we'll need sequestration to make up the difference.
$600 per ton is how much they are paying to remove it, not how much the externality is. Economists like Nordhaus (who won a Nobel for his work) who have done empirical work to quantify the level of externality have estimated $50-70 a ton as more reasonable numbers.
The German government (the Umweltbundesamt) recommends between 195€/ton and 680€/ton in 2020, depending on the discounting function, with costs increasing to 250-765€/ton in 2050 [1]. The error bars on these estimates are terribly large because we don't know the CO2 sensitivity very precisely and we also disagree on which discounting function we should use to value damage in the future. Imo, tying the price of carbon to the price of atmospheric carbon removal is the most reasonable thing to do.
Yes, it includes things like sea level rise. Having said that, the giant knob hiding in the math is the discount rate. If you have $1 of damage in 2121, how much are you willing to pay today to avoid it? $1? $0.01?
Discount rates are usually in the 4.5-6% range. On the lower end, that means damage 100 years out is discounted 80x+. Most of the hefty damage from climate change happens from 2060 onward in most models, so the NPV to society not actually that high (yet). You also have to decide if society will allow geoengineering (e.g. stratospheric calcite, or something that fairly harmless by contrast but politically charged today) when things get really bad.
(Realistically, that will likely happen because the alternative is much worse, so do you price that in? Something like stratospheric aerosols can turn back the clock for a significant fraction of damage (minus OA and some other nastiness))
Anyway, the $50/ton number is intentionally framed as a purely economic one, and it's acknowledged that not all externalities are captured, so you may want to pick a different number.
Also, as an aside, $600/ton isn't where the market is going, and not something to anchor on. I hope pyrolysis+sequestration, which has a lot of benefits, will get to a low cost point. They'll be competing with things in the $50-150/ton range, with various levels of scalability.
It did include sea levels and it doesn’t use any arbitrary cutoff, it uses discounting. Incidentally, standard macro discounting rates mean that things a century from now are worth very little compared to the same things today, so if you were to cut off at 2100 it wouldn’t change too much.
So that means that if the technology gets 10x cheaper then it'll be economically viable for the affected parties to pay for carbon sequestration. Charm says they think $45/ton is achievable. I guess the conclusion is that climate change will be solved in a few years?
Lol the whole concept of externalities is an economic one. It is the idea that a transaction you engage in has effects on people outside the transaction. And when this will occur in the future by definition forecasts (not of economics, of the effects) must be used to estimate it
Perhaps a naive question but what is the carbon overhead of the removal. And is that taken into consideration? edit: am I right in calculating that the average American citizen would need to purchase the 7 Eur plan 170+ times over to make themselves carbon neutral for a year
It’s certainly a good question. They may have done that analysis themselves, but I haven’t seen it.
And yes it’s about $20,000 USD per year to account for the average american’s emissions. I’m actually cheered that this is a good deal less than average GDP per capita. So as the tech scales the costs are at least possible to pay. It would be much worse if the costs exceeded GDP.
Meanwhile, buying a smaller subscription provides funds to help scale the technology which should lower costs. This is Stripe’s goal with Stripe Climate.
> According to them, the grey emissions for the construction, operation and deconstruction of a Climeworks machine are less than 10% of the captured carbon dioxide with the use of waste heat and renewable electricity. Our goal is to reduce this to 4%.
(Apparently this is most practical in Iceland because of the abundant geothermal energy there.)
The "grey carbon" (or emissions produced for the removal) are taken into account yes. Climeworks works with a geothermal power plant in Iceland for sustainable power to limit the CO₂ produced and only sells the "net negative emisssions" (so calculated after subtracting the emissions produced in the process)
CarbonPlan is doing a great job bringing transparency here by analyzing and publishing proposals to the major carbon removal programs to date (Stripe and Microsoft): https://carbonplan.org/research/cdr-database
That is a bit like suggesting everyone buy enough storage to digitize all of their photos at high resolution in 1990. It would have cost thousands per person. With scale this should get substantially cheaper and more realistic.
You can buy it (carbon removal via Charm) as part of a portfolio of carbon removal (including Climeworks - another Stripe partner - and Greensand, an already active equivalent of Project Vesta) at https://carbonremoved.com
Edit: More info on the portfolio of removal partners
It's likely that even with incredibly aggressive elimination of co2 waste, several economic sectors will continue to produce significant amounts of co2, and we'll need sequestration to make up the difference.
[1] https://www.sciencedaily.com/releases/2008/04/080428120658.h...
[2] https://stripe.com/blog/first-negative-emissions-purchases