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OKIsItJustMe

(21,016 posts)
Thu Jan 11, 2024, 10:02 PM Jan 2024

Catalytic Combo Converts CO2 to Solid Carbon Nanofibers

https://www.bnl.gov/newsroom/news.php?a=121635
Catalytic Combo Converts CO₂ to Solid Carbon Nanofibers
Tandem electrocatalytic-thermocatalytic conversion could help offset emissions of potent greenhouse gas by locking carbon away in a useful material
January 11, 2024

UPTON, NY—Scientists at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory and Columbia University have developed a way to convert carbon dioxide (CO₂ ), a potent greenhouse gas, into carbon nanofibers, materials with a wide range of unique properties and many potential long-term uses. Their strategy uses tandem electrochemical and thermochemical reactions run at relatively low temperatures and ambient pressure. As the scientists describe in the journal Nature Catalysis, this approach could successfully lock carbon away in a useful solid form to offset or even achieve negative carbon emissions.

“You can put the carbon nanofibers into cement to strengthen the cement,” said Jingguang Chen, a professor of chemical engineering at Columbia with a joint appointment at Brookhaven Lab who led the research. “That would lock the carbon away in concrete for at least 50 years, potentially longer. By then, the world should be shifted to primarily renewable energy sources that don’t emit carbon.”

As a bonus, the process also produces hydrogen gas (H₂ ), a promising alternative fuel that, when used, creates zero emissions.

Capturing or converting carbon
The idea of capturing CO₂ or converting it to other materials to combat climate change is not new. But simply storing CO₂ gas can lead to leaks. And many CO₂ conversions produce carbon-based chemicals or fuels that are used right away, which releases CO₂ right back into the atmosphere.

Here’s the thing I keep coming back to. Coal is essentially a large quantity of pure carbon with some impurities. We burn/burned it producing CO₂ and energy. So, this technology essentially reverses the process, taking CO₂ and converting it back to carbon. Now, how much energy does that take? (Presumably at least as much energy as we got from burning the coal, which we used extremely inefficiently.)

So, to reverse things on a grand scale, say, convert 120ppm of CO₂ to carbon nanofibers would require, let’s call it 3 times the amount of useful energy that we produced by burning it in the first place. On the other hand, pumping CO₂ into basalt does not have to pay back that chemical energy debt.
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Catalytic Combo Converts CO2 to Solid Carbon Nanofibers (Original Post) OKIsItJustMe Jan 2024 OP
There is something else missing thatdemguy Jan 2024 #1
Can they immediately form it into larger blocks? keithbvadu2 Jan 2024 #2
On the worries scale, I would rate this relatively low OKIsItJustMe Jan 2024 #3
I don't think there would be an issue with carbon nanofibers since that's just carbon OnlinePoker Jan 2024 #4
There is a risk associated with carbon nanofibers (comparable to asbestos fibers which are also natural) OKIsItJustMe Jan 2024 #5
Many carbon compounds are highly toxic orthoclad Jan 2024 #6
The key here is catalysis. orthoclad Jan 2024 #7
catalysis is great, but thermodynamics rules! OKIsItJustMe Jan 2024 #8
Uh, catalysis IS thermodynamics orthoclad Jan 2024 #9

thatdemguy

(536 posts)
1. There is something else missing
Thu Jan 11, 2024, 10:25 PM
Jan 2024

Where does the hydrogen come from? C02 minus the C is oxygen, I still dont know where the hydrogen comes from.

Never mind I just read it, they have to add water.

keithbvadu2

(40,516 posts)
2. Can they immediately form it into larger blocks?
Thu Jan 11, 2024, 11:06 PM
Jan 2024

Nano particles of plastic are becoming more pervasive in our environment and our bodies.

Even in large blocks, the carbon nanofibers would eventually become nano particles again but maybe we could slow down the effects.

Or is it no worries?

OKIsItJustMe

(21,016 posts)
3. On the worries scale, I would rate this relatively low
Thu Jan 11, 2024, 11:21 PM
Jan 2024

For the last million years or so, atmospheric CO₂ has not risen above about 300ppm. When it has, it has been associated with about 5°C of warming. (We would prefer to limit it to no more than 1.5°C.)


Atmospheric CO₂ levels are at about 420ppm and rising over 2ppm each year.


There are various schemes about how we can decrease the rate of emissions, but I haven’t seen any plans to decrease the accumulation which I consider practical.

To give you an idea of the magnitude of the challenge, before we got involved, burning fossil fuels, cutting down forests and burning the wood, digging up peat and burning it (you get the idea) a pristine ecosystem was able to draw down CO₂ about 1ppm in about 1,000 years.

We’d probably do well to decrease CO₂ levels like… 150ppm? (In 2008, James Hansen et. al suggested using 350ppm as an initial target.) So, I hear your concern about nanoplastics, but…


https://democraticunderground.com/1127170495

… Consistent analysis of temperature over the full Cenozoic era—including ‘slow’ feedbacks by ice sheets and trace gases—supports this sensitivity and implies that CO₂ was 300–350 ppm in the Pliocene and about 450 ppm at transition to a nearly ice-free planet, exposing unrealistic lethargy of ice sheet models. …



At our current rate of emissions we will hit 450ppm in a little less than 15 years. That does not mean that all of the glaciers will disappear overnight. It means that without some way of lowering atmospheric CO₂ levels extremely rapidly… it’s not going to be pretty.

OnlinePoker

(5,850 posts)
4. I don't think there would be an issue with carbon nanofibers since that's just carbon
Thu Jan 11, 2024, 11:34 PM
Jan 2024

Carbon is a natural building block in nature, so all you would have is a literal carbon sink even if it was buried in the ground as waste and allowed to break down over time.

OKIsItJustMe

(21,016 posts)
5. There is a risk associated with carbon nanofibers (comparable to asbestos fibers which are also natural)
Thu Jan 11, 2024, 11:55 PM
Jan 2024
https://doi.org/10.3390/nano11030745
Occupational Exposure to Carbon Nanotubes and Carbon Nanofibres: More Than a Cobweb



Nanomaterials 2021, 11(3), 745; https://doi.org/10.3390/nano11030745
Submission received: 11 February 2021 / Revised: 11 March 2021 / Accepted: 13 March 2021 / Published: 16 March 2021
(This article belongs to the Special Issue Engineered Nanomaterials Exposure and Risk Assessment: Occupational Health and Safety)

Abstract

Carbon nanotubes (CNTs) and carbon nanofibers (CNFs) are erroneously considered as singular material entities. Instead, they should be regarded as a heterogeneous class of materials bearing different properties eliciting particular biological outcomes both in vitro and in vivo. Given the pace at which the industrial production of CNTs/CNFs is increasing, it is becoming of utmost importance to acquire comprehensive knowledge regarding their biological activity and their hazardous effects in humans. Animal studies carried out by inhalation showed that some CNTs/CNFs species can cause deleterious effects such as inflammation and lung tissue remodeling. Their physico-chemical properties, biological behavior and biopersistence make them similar to asbestos fibers. Human studies suggest some mild effects in workers handling CNTs/CNFs. However, owing to their cross-sectional design, researchers have been as yet unable to firmly demonstrate a causal relationship between such an exposure and the observed effects. Estimation of acceptable exposure levels should warrant a proper risk management. The aim of this review is to challenge the conception of CNTs/CNFs as a single, unified material entity and prompt the establishment of standardized hazard and exposure assessment methodologies able to properly feed risk assessment and management frameworks.

orthoclad

(4,728 posts)
6. Many carbon compounds are highly toxic
Fri Jan 12, 2024, 07:21 PM
Jan 2024

A quick search turned up a lot of material on carbon nano toxicity, such as this from the American Chemical Society:
"The underlying mechanisms of CNT toxicity include oxidative stress, inflammatory responses, malignant transformation, DNA damage and mutation (errors in chromosome number as well as disruption of the mitotic spindle), the formation of granulomas, and interstitial fibrosis. "
https://pubs.acs.org/doi/10.1021/ar300028m
Carbon is highly reactive.

I'd say they would have to be careful of generating toxic compounds, especially if it goes into building materials and other public-facing uses.

That said, this is promising. We could replace many uses of plastic and metal with carbon, reducing the large energy budget for refining metal plus the horrific mess of plastic pollution. We'd have to be careful, though.

orthoclad

(4,728 posts)
7. The key here is catalysis.
Fri Jan 12, 2024, 07:52 PM
Jan 2024

Catalyzed reactions take less energy than uncatalyzed.

We'd have to do an energy budget to compare the energy cost of the two catalyzed reactions in this process with the energy released by burning carbon sources - or with the energy captured by having that carbon in the atmosphere. The article says that use of catalysts reduces the temperature needed for the reaction from 1000C to 400C. That's still a lot of heat.

“It’s very unrealistic for large-scale CO2 mitigation [referring to the 1000C process],” Chen said. “In contrast, we found a process that can occur at about 400 degrees Celsius, which is a much more practical, industrially achievable temperature.”

OKIsItJustMe

(21,016 posts)
8. catalysis is great, but thermodynamics rules!
Fri Jan 12, 2024, 08:07 PM
Jan 2024

Regardless, I don’t think we will be producing enough to have a significant effect on atmospheric CO₂.

orthoclad

(4,728 posts)
9. Uh, catalysis IS thermodynamics
Fri Jan 12, 2024, 08:26 PM
Jan 2024

"Catalysts enable pathways that differ from the uncatalyzed reactions. These pathways have lower activation energy. Consequently, more molecular collisions have the energy needed to reach the transition state." (bold mine)
https://en.wikipedia.org/wiki/Catalysis

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