Carbon Clean Solutions built a plant in Tuticorin in southern India that captures carbon dioxide from its coal-fired boiler and converts it into soda ash (a chemical cousin of the baking soda you buy in a grocery store). And, in what Sharma says is a world’s first, the commercial-scale plant set to capture 60,000 tons of CO2 annually does it so cheaply that it did not need any government subsidies.
Before Carbon Clean Solutions came along, the Tuticorin chemicals plant used to buy carbon dioxide to make its soda ash. It also bought coal to fire up its boiler. Now, instead of wasting carbon dioxide that burning coal produced, the plant is capturing it and saving the money on buying any more carbon dioxide. As a plus, the CO2 supply is also more reliable than before.
“I am a businessman,” Ramachandran Gopalan, the managing director of the Tuticorin plant, told the BBC. “I never thought about saving the planet. I needed a reliable stream of CO2, and this was the best way of getting it.”
Capturing carbon is a valuable step, but only as part of a process that net removes it from the atmosphere. This project doesn't seem to have that goal.
> "China's new CCS project will remove CO2 from two coal gasification (syngas) plants and re-inject the gas into previously exhausted oil fields."
> "CCS "is an important set of technologies for reducing emissions from fossil fuel use, while enabling important resources such as coal to continue to contribute to energy security and economic objectives.""
They aren't net taking CO2 out of the atmosphere. They're using it to pump more oil out of the ground and using it to argue to burn more coal. The CO2 in the ground won't likely stay there forever but much of it will seep back into the atmosphere.
> "the world's first commercial carbon capture and storage (CCS) plant opened in Zurich, Switzerland with the goal of selling compressed CO2 gas to industry, basically re-purposing the gas."
The Switzerland plant isn't taking CO2 out of the atmosphere either.
The article doesn't mention how much energy the plant uses to capture the carbon. If not powered by renewables, the process itself may not even be carbon neutral.
Let's hope others find ways to sequester the carbon, and maybe this step may help that process, but I don't see it offering much hope.
Meanwhile, almost no efforts put into changing people's behavior to reduce their emissions.
> Capturing carbon is a valuable step, but only as part of a process that net removes it from the atmosphere.
The IPCC, the IEA, and a boatload of scientists disagree. We cannot prevent catastrophic global warming without doing the type of CCS you describe as useless. Sure, we also want to be doing stuff that's net carbon negative, but that's a long way into the future.
And CCS from power generation is only one aspect. CCS from cement plants, steel furnaces etc. is another thing we need - those processes will inherently emit large amounts of CO2 even if electric power is 100% renewable.
Finally, when it comes to capture from air, I think stuff like "biomass -> syngas -> water shift -> separation of CO2 captured and stored, H2 produced for energy" is much more likely to be successful, because you can make it net CO2 negative and it produces something valuable as a byproduct. Capture from air is a whole 'nother matter, starting from a very low CO2 partial pressure and thus very inefficient.
> Sure, we also want to be doing stuff that's net carbon negative, but that's a long way into the future.
Isn't refusing emitted carbon (net negative) the entire point? That wouldn't be an "also" then, and newfangled ideas that don't give such a result are nothing to be excited about.
Seems to me capturing from the air is a wholly separate matter, whereas capturing at the source (i.e. power plant) should be the focus.
I guess "net negative" can be interpreted different ways. I was thinking of "net negative" to mean "capturing CO2 that's already been emitted", as opposed to "capturing CO2 before it is emitted in the future".
I agree any CCS scheme must be "net negative" in the sense that it doesn't produce more CO2 than it captures. But all the technologies in the pipeline today fulfill this.
> How effective is carbon capture? Are we talking 30% less carbon? 99% less carbon? somewhere in the middle?
Usually this is something you can tune to optimize your total system and the cost of capture. But typical requirements are >90% CO2 captured, often you see >95% or even 99%.
> How much cost does it add to a typical coal plant? How does that compare to new solar installations?
IIRC the target for something like a coal plant is getting below $100 total cost per ton of CO2 captured, transported and stored. Usually that's calculated summing up CAPEX paid down over some time span, plus OPEX, plus the price you pay someone else for taking the CO2 and storing it. To put that into perspective, if you pass this cost directly on to the consumer, it would correspond to almost doubling the price of electricity. Usually some form of government subsidy accounts for this price increase.
> Is carbon capture tech renewable? I.e. does it depend on some finite chemical material?
Depends very much on the tech. Broadly, we can split into four categories: solvent-based, adsorbent-based, membrane-based and liquefaction-based. E.g. for membranes for H2/CO2 separation, palladium is a key ingredient, which is hardly renewable (but we're not exactly running out tomorrow).
> Is carbon capture feasible in smaller scales? E.g. can we stick a carbon capture system on a car?
On a car? No. I've heard it discussed for diesel locomotives, anything smaller than that your CAPEX and OPEX are so high it makes much more sense to either go electric, or do "pre-combustion" capture, such as converting natural gas into CO2/H2 in a big plant and separating out CO2 while distributing H2 for use in cars.
> The CO2 in the ground won't likely stay there forever but much of it will seep back into the atmosphere.
That's really not the case. The injected CO2 is under such pressure that it stays liquid. We don't worry about massive oil seepage from kilometers underground, and studies have shown we don't have to worry about CO2 either:
https://hub.globalccsinstitute.com/sites/default/files/publi...
E.g.:
"
The CO2 being injected should be in a “dense phase,” which means that it is put under pressure (compressed) until it turns from a gas into a kind of liquid. Because liquids take up much less space than gases, when large amounts of CO2 are injected, less space will be needed underground if the CO2 is in liquid form. It will mix more easily with water and other compounds, helping to secure the CO2 underground. The storage location must be deep enough in the earth that the pressures of the multiple layers of rock above the storage site keep the CO2 in this dense phase, to help it stay in the secure storage location, and not rise up like a gas. It is possible for CO2 to be injected as a gas, but the storage location would have to have a higher storage capacity since a gas takes up more space than a liquid.
• Containment: A storage site must also have a layer of dense, impenetrable rock above it (called caprock) to stop any upward movement of CO2. There is often more than one such layer above the target storage formation that offers protection to keep the CO2 in the storage site.
"
And:
"
The oil reservoirs studied in the WMP are about 1500 meters deep, which is deep enough so that the CO2 remains like a liquid. The reservoirs are made of limestone and a similar rock-type called dolostone. Both rocks contain lots of pore space where the oil has been trapped for millions of years.
"
Half of the consumables today are virtual products - movies, software, services. A gaming youth living in his room with his parents lives a life, that previous generations would have seen fit to a monk.
Shareeconomys boom, removing the empty car from the lanes, electric cars simplify and reduce the many parts once used to make a car.
All this, and you call that nothing, and dream about reshaping the human- this damned old project that is as much a bug, as the bugs encountered when "reeducating, reshaping" humans.
Go and buy two books "The Rise and Fall of Communism" and literally any comment on literally any democratic constitution and why it was built that way.
And then put them on the end of two pistons and get them into your head.
Reshaping human behaviour is hard. Like really hard.
Like they vote for Trump, if you only ramp down hard.
And the problem is not only with the shapeshiftresistant, but also with the "We-should-Shift-Them"-Smurfs, who - very much resist not there tendency to go full totalitarian the moment the hardness of the task becomes obvious.
Sorry for this, but this comment is here in a thousand shapes and forms, day in and day out, and it rarely replaced with something worth reading after an attempt to educate.
On one hand there is much concern and awareness about the environment and our carbon footprint. Businesses globally are under pressure to become greener. Individuals are trying to do their bit. There is activism and global concern.
On the other hand bitcoin and other crypto currencies continue to encourage millions to waste power for no useful reason beyond speculation without a care in the world, and without being called out on it. Can future designers of crypto currencies consider the waste of power?
A lot of concern begins to look self serving and mere finger pointing at others if whenever there is self interest and potential gain at stake all concerns go flying out, things are allowed to coast below the surface and hand waved away.
Are business that adopt crypto going to be boycotted for encouraging the needless waste of power?
It's it fair to attack cryptocurrencies for being wasteful when far more resources are being "wasted" on entertainment? How about we go after vacations? Cruises, airplanes, hotels sitting mostly vacant, RVs, snow mobiles in the winter, boating in the summer. How are these not wasteful?
Or rather why are you calling out Bitcoin instead?
Consider this, you have this huge truck consuming gallons of fuel and expending pollution and you have to drive it up and down a 1km road 24/7 to get some tokens. And that's it, just drive up and down. Do you think this is a proper use of scarce resources? Is this defensible?
You point to other trucks on the road, they are transporting goods and providing essential services to society and both truck manufacturers and users are under pressure to increase efficiency and reduce waste and pollution.
In this context how would you judge an individual who introduces a token that simply requires trucks to drive up and down 24/7. Would it be fair to say this is an act of utter recklessness and irresponsibility?
>Do you think this is a proper use of scarce resources? Is this defensible?
Oh come on, you going to make an analogy about doing nothing and completely ignore my argument that vacations are nothing. Humans don't need vacations. Humans probably also didn't need cryptocurrencies.
>You point to other trucks on the road, they are transporting goods and providing essential services to society
And you ignore all the vehicles on the road transporting humans and their toys to the distant destinations where they are going, not to do work, no they are avoiding work.
>Would it be fair to say this is an act of utter recklessness and irresponsibility?
Would it be fair to say I never said Bitcoin was not that, just the we might have more egregious actions that we perform that are accepted as a part of daily life.
Silly questions.
Assuming someday we have an abundance of electricity, could we not just Capture x% of the Carbon from atmosphere and store them as Diamond?
Good question, I think. If that industrial CO2 ends up in the atmosphere after use, then there's no benefit. And, since it took energy to capture that CO2, presumably that generated even more.
Before Carbon Clean Solutions came along, the Tuticorin chemicals plant used to buy carbon dioxide to make its soda ash. It also bought coal to fire up its boiler. Now, instead of wasting carbon dioxide that burning coal produced, the plant is capturing it and saving the money on buying any more carbon dioxide. As a plus, the CO2 supply is also more reliable than before.
“I am a businessman,” Ramachandran Gopalan, the managing director of the Tuticorin plant, told the BBC. “I never thought about saving the planet. I needed a reliable stream of CO2, and this was the best way of getting it.”
https://qz.com/878674/two-indian-engineers-have-drastically-...