Carbon Dioxide Removal (CDR)

Carbon Dioxide Removal (CDR) CadeJohnson • 1 year ago • 100%

why have a CDR community?

I am a volunteer with an all-volunteer CDR organization OpenAir https://openaircollective.cc We work on advocacy, public education and technical development of CDR methods. This is an opportunity to reach and communicate with a broader swath of society. CDR is a fast-growing field and I want to collaborate.

Carbon Dioxide Removal (CDR) Blair • 2 months ago • 100%

Peatbogs Can Help Save the Planet 🌍

  ([Image Source)](https://www.pewtrusts.org/en/research-and-analysis/articles/2022/06/02/peatlands-which-can-help-fight-against-climate-change-face-many-threats) Since peat bogs collect and store large amounts of carbon, they are what is known as a “carbon sink.” So, one way to help the planet would be to protect these spaces, but unfortunately peat, and often the land, is valuable. >"Worldwide, the remaining area of near natural peatland (over 3 million km2) sequesters 0.37 gigatonnes of CO2 a year. Peat soils contain more than 600 gigatonnes of carbon which represents up to 44% of all soil carbon, and exceeds the carbon stored in all other vegetation types including the world’s forests.“ [IUCN](https://www.iucn.org/resources/issues-brief/peatlands-and-climate-change#:~:text=Worldwide%2C%20the%20remaining%20area%20of,types%20including%20the%20world's%20forests.) Peat is built up dead vegetation that(thanks to the wet and low-oxygen environments) does not break down, creating a sponge-like effect. They hold carbon, help control water flow(helping with both [floods](https://www.iucn-uk-peatlandprogramme.org/news/peat-restoration-and-natural-flood-management) and [droughts](https://www.iucn.org/resources/issues-brief/peatlands-and-climate-change)), and [improve water quality](https://www.mdpi.com/2073-4441/3/1/323) through filtering. If harvested on a small and sustainable scale, it can provide[ a firewood alternative](https://www.britannica.com/technology/peat), a plant substrate, a fertilizer, and more. However, the peatlands are drained on large scales, so it is important that people know the importance of these (often hated) areas. More Info: - https://youtu.be/MtsQPV49cAk - https://youtu.be/fOYaUZdgCA0 - https://youtu.be/r-LY17qcQEk

Carbon Dioxide Removal (CDR) pedroapero • 5 months ago • 87%

Startup is Building the World's Largest Ocean-Based Carbon Plant - and It's Scalable edition.cnn.com

An anonymous reader shared [this report from CNN](https://edition.cnn.com/2024/04/21/climate/equatic-ocean-carbon-removal-plant-climate-intl/index.html): > On a slice of the ocean front in west Singapore, a startup is building a plant to turn carbon dioxide from air and seawater into the same material as seashells, in a process that will also produce ["green" hydrogen](https://www.cnn.com/2021/08/28/world/green-hydrogen-climate-explainer-blue-gray-intl-cmd/index.html) — a much-hyped clean fuel. > The cluster of low-slung buildings starting to take shape in Tuas will become the "world's largest" ocean-based carbon dioxide removal plant when completed later this year, according to Equatic, the startup behind it that was spun out of the University of California at Los Angeles. The idea is that the plant will pull water from the ocean, zap it with an electric current and run air through it to produce a series of chemical reactions to trap and store carbon dioxide as minerals, which can be put back in the sea or used on land... The $20 million facility will be fully operational by the end of the year and able to remove 3,650 metric tons of carbon dioxide annually, said Edward Sanders, chief operating officer of Equatic, which has partnered with Singapore's National Water Agency to construct the plant. That amount is equivalent to taking roughly 870 average passenger cars off the road. The ambition is to scale up to 100,000 metric tons of CO2 removal a year by the end of 2026, and from there to millions of metric tons over the next few decades, Sanders told CNN. The plant can be replicated pretty much anywhere, he said, stacked up in modules "like lego blocks...." > The upfront costs are high but the company says it plans to make money by selling carbon credits to polluters to offset their pollution, as well as selling the hydrogen produced during the process. Equatic has already signed a deal with Boeing to sell it 2,100 metric tons of hydrogen, which it plans to use to create green fuel, and to fund the removal of 62,000 metric tons of CO2. There's other projects around the world attempting ocean-based carbon renewal, CNN notes. "Other projects include sprinkling iron particles into the ocean to stimulate CO2-absorbing phytoplankton, sinking seaweed into the depths to lock up carbon and spraying particles into marine clouds to reflect away some of the sun's energy." > But [carbon-removal projects are controversial,](https://www.cnn.com/2023/05/11/world/carbon-capture-removal-pollution-climate-intl/index.html) criticized for being expensive, unproven at scale and a distraction from policies to cut fossil fuels. And when they involve the oceans — complex ecosystems [already under huge strain from global warming](https://www.cnn.com/2023/05/05/world/ocean-surface-temperature-heat-record-climate-intl/index.html) — criticisms can get even louder. There are "big knowledge gaps" when it comes to ocean geoengineering generally, said Jean-Pierre Gatusso, an ocean scientist at the Sorbonne University in France. "I am very concerned with the fact that science lags behind the industry," he told CNN. Abstract credit: https://slashdot.org/story/427506

Carbon Dioxide Removal (CDR) CadeJohnson • 8 months ago • 100%

Method-neutral carbon removal certification needed

📢📢📢 OpenAir joins 350+ companies and organizations from across the CDR sector to call for a method-neutral EU #CRCF 🇪🇺🇪🇺🇪🇺  docs.google.com/document/d/1...

Carbon Dioxide Removal (CDR) CadeJohnson • 9 months ago • 100%

Europe is spending millions to trap carbon. Where will it go? www.politico.eu

quite a lot of captured CO2 can go into concrete. Maybe a cement (powder) producer is not able to tap into that method directly, but policy shifts will open it up. There are already several US states with low-embodied-carbon concrete laws creating markets for this purpose.

Carbon Dioxide Removal (CDR) CadeJohnson • 9 months ago • 100%

Deep sea carbon sequestration with seaweed? https://noc.ac.uk/news/can-seaweed-help-store-co2-ocean-floor

Carbon Dioxide Removal (CDR) Treevan • 9 months ago • 100%

Research Explores Capacity of Biochar to Combat Climate Change, Improve Forest Soils yubanet.com

https://now.humboldt.edu/news/research-explores-capacity-biochar-combat-climate-change-improve-forest-soils Researchers will conduct tests in the Six Rivers National Forest, treating each test site with a unique biochar mix that’s seeded with a native, pollinator-friendly plant mix to compare growth between test sites. They’ll measure changes in vegetation productivity, diversity, native species composition, soil carbon, nutrients, metals, bulk density, seasonal water availability, and microbial community composition over a five-year period.

Carbon Dioxide Removal (CDR) Treevan • 10 months ago • 100%

Aussie innovation turns waste into energy ‘gold’ www.rmit.edu.au

The article discusses a new Australian innovation called PYROCO that uses high heat to turn waste like sewage sludge and food waste into a carbon-rich product called biochar. This process removes pathogens and can turn waste into resources like fertilizer or materials for batteries. The technology has undergone trials and shows promise to more sustainably manage waste. Researchers are now working to commercialize the technology.

Carbon Dioxide Removal (CDR) CadeJohnson • 10 months ago • 100%

OpenAir - This Is CDR Episode 88 - Cascade Climate lu.ma

Carbon Dioxide Removal (CDR) LilNaib • 10 months ago • 100%

Biochar books

Any recommendations on books about biochar? I recently read and enjoyed [The Biochar Debate: Charcoal’s Potential to Reverse Climate Change and Build Soil Fertility](https://www.goodreads.com/book/show/7772995-the-biochar-debate) by James Bruges. It’s a short read, slightly academic but not stuffy, and written with a sense of urgency. At the end he briefly talks about the CMF (Carbon Maintenance Fee) which I hadn’t heard of and is essentially a proposed strategy for financially incentivizing land-based carbon sequestration (reforestation, increasing soil carbon, etc). I would recommend this book to anyone interested in biochar or climate change. What other biochar books do people like, and what do you like about them?

Carbon Dioxide Removal (CDR) CadeJohnson • 10 months ago • 83%

2024 Carbon Removal Challenge - student CDR innovation competition https://cdn.discordapp.com/attachments/842879195397750784/1172452869979516959/2024_Carbon_Removal_Challenge_-_High_Resolution.png?ex=65605ed3&is=654de9d3&hm=be50f6de91d3009b8b2b96e21486fbc8ed9bac93357e67ff1370b4f849e76afb

entry details in the image text. A QR code is provided for a registration link

Carbon Dioxide Removal (CDR) CadeJohnson • 10 months ago • 100%

Companies capture a lot of CO2. Most of it is going into new oil. https://www.washingtonpost.com/climate-environment/2023/10/25/enhanced-oil-recovery-carbon-capture/

cross-posted from: https://slrpnk.net/post/3903718 > Excerpt: > > > That’s the theory, anyway. But today, the lion’s share of the CO2 captured from industrial processes doesn’t go back into the ground. Instead, 60 percent of it is used to extract more oil, in a controversial process known as “enhanced oil recovery.” > > > > “I think it’s a huge problem,” said Lorne Stockman, research co-director of the advocacy group Oil Change International. “The oil and gas industry has done a very good job of co-opting our climate and clean energy policy.” > > > > For over a decade, the U.S. government has been quietly funding the capture of CO2 that is ultimately used to drill more oil. Some experts and researchers argue that the climate impact is net positive: The oil will be drilled anyway, and the process can help companies learn how to capture CO2 more efficiently. But others say that the government shouldn’t be helping companies sustain more fossil fuel extraction.

Carbon Dioxide Removal (CDR) Five • 10 months ago • 100%

Companies capture a lot of CO2. Most of it is going into new oil. https://www.washingtonpost.com/climate-environment/2023/10/25/enhanced-oil-recovery-carbon-capture/

Excerpt: > That’s the theory, anyway. But today, the lion’s share of the CO2 captured from industrial processes doesn’t go back into the ground. Instead, 60 percent of it is used to extract more oil, in a controversial process known as “enhanced oil recovery.” > > “I think it’s a huge problem,” said Lorne Stockman, research co-director of the advocacy group Oil Change International. “The oil and gas industry has done a very good job of co-opting our climate and clean energy policy.” > > For over a decade, the U.S. government has been quietly funding the capture of CO2 that is ultimately used to drill more oil. Some experts and researchers argue that the climate impact is net positive: The oil will be drilled anyway, and the process can help companies learn how to capture CO2 more efficiently. But others say that the government shouldn’t be helping companies sustain more fossil fuel extraction.

Carbon Dioxide Removal (CDR) CadeJohnson • 11 months ago • 100%

Researchers argue that reducing greenhouse gas emissions is not enough to combat climate change phys.org

Carbon Dioxide Removal (CDR) Five • 11 months ago • 100%

Perhaps the most important biochar video you will ever watch! yt.artemislena.eu

Carbon Dioxide Removal (CDR) Five • 11 months ago • 90%

6 Ways to Remove Carbon Pollution from the Atmosphere www.wri.org

Carbon Dioxide Removal (CDR) Five • 11 months ago • 85%

CO₂ shortage: why can't we just pull carbon dioxide out of the air? theconversation.com

Carbon Dioxide Removal (CDR) Five • 11 months ago • 85%

Catastrophic Carbon Removal. How the 'Big Solution' is failing badly. yt.artemislena.eu

[Canonical YouTube link](https://www.youtube.com/watch?v=hyVRtEPKhTY)

Carbon Dioxide Removal (CDR) CadeJohnson • 11 months ago • 87%

CDR is a giant industry in its infancy www.latitudemedia.com

Carbon Dioxide Removal (CDR) Treevan • 12 months ago • 91%

Biochar Can Improve Soil Health While Capturing Carbon cleantechnica.com

"Biochar production today ranges from small scale at a few lb per day to 50 tons - 300 cubic yards - per day. New production is being planned for 70-140 tons per day."Uses range from retail gardens to landscaping, turf and trees, community gardens, municipal stormwater, small to medium farms with high value crops, environmental applications and building products. "Biochar accounts for 50% of the carbon and 20% of the mass of the biomass you start with. The other 50% of the carbon is available as condensable liquids, and non-condensable gases. We have limited markets for the liquid products today. In today's market you need to use renewable energy to justify production, which is a barrier to building industrial scale facilities." Down The Rabbit Hole biochar Image courtesy of Carbonculture When I first contacted Jock Gill, he warned me that biochar is a very deep rabbit hole, and he was so right. There is a common misconception that biochar is one thing. Perhaps the most important benefit of biochar is that it converts about 50% of the carbon in organic waste into a stable compound that stays locked in the soil. According to Grist, the amount of biochar being produced in the United States today - about 100,000 metric tons - is tiny compared to the amount needed to sequester carbon in a globally significant way. "Biochar started to be promoted as a single solution and a silver bullet, and it's much more nuanced than that. A lot of people are trying to shift toward understanding that biochar is a class of products." To learn more about biochar, the USDA website has a wealth of information Researchers at the U.S. Department of Agriculture are putting together a national database to help farmers choose from the many different types of biochar and connect them with local producers, and Congress is weighing legislation with bipartisan support - the Biochar Research Network Act - that would increase funding for similar research.

Carbon Dioxide Removal (CDR) Five • 12 months ago • 100%

Africa’s first carbon-removal plant stokes questions about responsible climate solutions www.nbcnews.com

Carbon Dioxide Removal (CDR) Treevan • 12 months ago • 100%

Temporary Worm Farm Biochar Inoculation

Adding of crushed bamboo biochar to a horse manure bedding for a hands-off biological inoculation of the feedstock. This isn't my usual worm farm (https://beehaw.org/comment/100268), just one I temporarily put together at a 50:50 ratio of 50L:50L manure:biochar for adding to a structural soil raised garden bed build some time in the future (the longer the better for inoculation purposes). Mixed in are a small amount of castings from the actual worm farm to accelerate correct bacteria composition and then worms will be added for the processing. It may be fed sporadically, I haven't decided yet. [](https://postimg.cc/Sn5bJjjD) [](https://postimg.cc/62xsfSrZ)

Carbon Dioxide Removal (CDR) Treevan • 12 months ago • 100%

Kuzyakov et al 2014 - Biochar stability in soil: Decomposition during eight years and transformation as assessed by compound-specific 14C analysis https://drive.google.com/file/d/1PlfgwRf0p0FiORGsurE3zdQHIZ52f88M/view?usp=drive_link

cross-posted from: https://slrpnk.net/post/2639720 > **Abstract** > > Stability and transformation products of incomplete combustion of vegetation or fossil fuel, frequently > called pyrogenic or black carbon and of biochar in soil, remains unknown mainly because of their high > recalcitrance compared to other natural substances. Therefore, direct estimations of biochar decomposition > and transformations are difficult because 1) changes are too small for any relevant experimental period and 2) due to methodological constraints (ambiguity of the origin of investigated compounds). We used 14C-labeled biochar to trace its decomposition to CO2 during 8.5 years and transformation of its chemical compounds: neutral lipids, glycolipids, phospholipids, polysaccharides and benzenepolycarboxylic acids (BPCA). 14C-labeled biochar was produced by charring 14C-labeled Lolium residues. We incubated the 14Clabeled biochar in a Haplic Luvisol and in loess for 8.5 years under controlled conditions. In total only about 6% of initially added biochar were mineralized to CO2 during the 8.5 years. This is probably the slowest decomposition obtained experimentally for any natural organic compound. The biochar decomposition rates estimated by 14CO2 efflux between the 5th and 8th years were of 7
104 % per day. This corresponds to less than 0.3% per year under optimal conditions and is about 2.5 times slower as reported from the previous shorter study (3.5 years). After 3.5 years of incubation, we analyzed 14C in dissolved organic matter, microbial biomass, and > sequentially extracted neutral lipids, glycolipids, phospholipids, polysaccharides and BPCA. Biochar derived C (14C) in microbial biomass ranged between 0.3 and 0.95% of the 14C input. Biochar-derived C > in all lipid fractions was less than 1%. Over 3.5 years, glycolipids and phospholipids were decomposed > 1.6 times faster (23% of their initial content per year) compared to neutral lipids (15% year1). Polysaccharides contributed ca. 17% of the 14C activity in biochar. The highest portion of 14C in the initial > biochar (87%) was in BPCA decreasing only 7% over 3.5 years. Condensed aromatic moieties were the most stable fraction compared to all other biochar compounds and the high portion of BPCA in biochar explains its very high stability and its contribution to long-term C sequestration in soil. Our new approach for analysis of biochar stability combines 14C-labeled biochar with 14C determination in chemical fractions allowed tracing of transformation products not only in released CO2 and in > microbial biomass, but also evaluation of decomposition of various biochar compounds with different chemical properties.

Carbon Dioxide Removal (CDR) Treevan • 12 months ago • 100%

Spokas -2010 - Review of the stability of biochar in soils: predictability of O:C molar ratios https://drive.google.com/file/d/14T5m9Gy1qxTLU1t_R8PdYNRAvRg7eFVw/view?usp=drive_link

cross-posted from: https://slrpnk.net/post/2643215 > **ABSTRACT** > > Biochar is not a structured homogeneous material; rather it possesses a range of chemical structures and > a heterogeneous elemental composition. This variability is based on the conditions of pyrolysis and the > biomass parent material, with biochar spanning the range of various forms of black carbon. Thereby, this > variability induces a broad spectrum in the observed rates of reactivity and, correspondingly, the overall > chemical and microbial stability. From evaluating the current biochar and black carbon degradation studies, > there is the suggestion of an overall relationship in biochar stability as a function of the molar ratio of oxygen to carbon (O:C) in the resulting black carbon. In general, a molar ratio of O:C lower than 0.2 appears to > provide, at minimum, a 1000-year biochar half-life. The O:C ratio is a function of production temperature, > but also accounts for other impacts (e.g., parent material and post-production conditioning/oxidation) that are not captured solely with production temperature. Therefore, the O:C ratio could provide a more robust indicator of biochar stability than production parameters (e.g., pyrolysis temperature and biomass type) or volatile matter determinations.

Carbon Dioxide Removal (CDR) Five • 1 year ago • 100%

US Department of Energy analysis says coal carbon capture project would emit more greenhouse gases than it stores energyandpolicy.org

Carbon Dioxide Removal (CDR) CadeJohnson • 1 year ago • 100%

Right now, could you prepare a slice of toast with zero embodied carbon emissions?

This is a bit tangential, but it is a well-framed commentary which applies when we think about CDR. cross-posted from: https://aus.social/users/ajsadauskas/statuses/111062337668091472 > Right now, could you prepare a slice of toast with zero embodied carbon emissions? > > Since at least the 2000s, big polluters have tried to frame carbon emissions as an issue to be solved through the purchasing choices of individual consumers. > > Solving climate change, we've been told, is not a matter of public policy or infrastructure. Instead, it's about convincing individual consumers to reduce their "carbon footprint" (a term coined by BP: [https://amp.theguardian.com/commentisfree/2021/aug/23/big-oil-coined-carbon-footprints-to-blame-us-for-their-greed-keep-them-on-the-hook](https://amp.theguardian.com/commentisfree/2021/aug/23/big-oil-coined-carbon-footprints-to-blame-us-for-their-greed-keep-them-on-the-hook)). > > Yet, right now, millions of people couldn't prepare a slice of toast without causing carbon emissions, even if they wanted to. > > In many low-density single-use-zoned suburbs, the only realistic option for getting to the store to get a loaf of bread is to drive. The power coming out of the mains includes energy from coal or gas. > > But. > > Even if they invested in solar panels, and an inverter, and a battery system, and only used an electric toaster, and baked the loaf themselves in an electric oven, and walked/cycled/drove an EV to the store to get flour and yeast, there are still embodied carbon emissions in that loaf of bread. > > Just think about the diesel powered trucks used to transport the grains and packaging to the flour factory, the energy used to power the milling equipment, and the diesel fuel used to transport that flour to the store. > > Basically, unless you go completely off grid and grow your own organic wheat, your zero emissions toast just ain't happening. > > And that's for the most basic of food products! > > Unless we get the infrastructure in place to move to a 100% renewables and storage grid, and use it to power fully electric freight rail and zero emissions passenger transport, pretty much all of our decarbonisation efforts are non-starters. > > This is fundamentally an infrastructure and public policy problem, not a problem of individual consumer choice. > > [\#ClimateChange](https://aus.social/tags/ClimateChange) [#urbanism](https://aus.social/tags/urbanism) [#infrastructure](https://aus.social/tags/infrastructure) [#energy](https://aus.social/tags/energy) [#grid](https://aus.social/tags/grid) [#politics](https://aus.social/tags/politics) [#power](https://aus.social/tags/power) [@green](https://lemmy.ml/c/green)

Carbon Dioxide Removal (CDR) CadeJohnson • 1 year ago • 87%

How big will the CDR effort become? marginalcarbon.substack.com

tldr several BILLION tons per year by 2050! Roughly equivalent to the total mass of all the cars in the world - every year.

Carbon Dioxide Removal (CDR) pedroapero • 1 year ago • 100%

Microsoft Signs Giant Carbon Removal Deal To Sponge Up CO2 Using Limestone www.geekwire.com

In a deal that could be worth $200 million, Microsoft announced that it is purchasing 315,000 metric tons of carbon removal over a multi-year period from climate tech startup Heirloom Carbon. It's one of the biggest deals of its kind, reports The Wall Street Journal (paywalled). GeekWire reports: > San Francisco-based Heirloom is harnessing a geologic approach to catching and holding carbon dioxide. Limestone naturally binds to carbon, but Heirloom's technology dramatically speeds up the process, cutting it from years to days. The startup operates the only U.S. facility permanently capturing carbon. Even more important than the volume of carbon to be removed is the deal's ability to unlock additional funding and investments to grow Heirloom's business and the sector more broadly. > Microsoft previously invested in Heirloom through its $1 billion Climate Innovation Fund. The new deal represents a financially empowering "bankable agreement," said Heirloom CEO Shashank Samala. "Bankable agreements of this magnitude enable Heirloom to raise project finance for our rapid scale-up, fueling exponential growth like what we've seen in the renewable energy industry," Samala said in a statement. The guaranteed cash flow can facilitate financing needed to build Heirloom's next two commercial sites. The deal is also "an example of the impact of the Biden administration's 2021 infrastructure bill," notes the report. "[T]he purchase was tied to Heirloom being selected by the U.S. Department of Energy as one of the nation's direct air capture (DAC) hubs. It will receive $600 million of matching funding thanks to the designation." Credit: https://slashdot.org/story/418838

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

The Influence of Biochar Soil Amendment on Tree Growth and Soil Quality: A Review for the Arboricultural Industry https://auf.isa-arbor.com/content/48/3/176

Studies assessing the effects of biochar used as a soil amendment in agriculture and forestry have indicated variable results, from significant improvements in growth and health to no effect at all. Research into biochar use for trees within the urban landscape is extremely limited. This review is aimed at arboricultural practitioners and professionals involved in urban tree landscape management and provides a critical analysis of the use of biochar to support tree health and establishment. Biochar, specifically wood biomass-based biochar, has the potential to enhance tree establishment and survival. However, considerable variability in the physical and chemical properties of biochar currently limits universal application. Therefore, practitioners should aim to use biochar types suitable for the desired function, such as transplant establishment, remediation of declining mature trees, and pest/disease management. Biochar also represents a promising complementary amendment to more established soil management techniques such as mulching and fertilization, but further long-term studies in a range of conditions typical of urban environments are required to fully understand the effects of specific biochar types on urban trees.

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 83%

Coffee grounds offer performance boost for concrete techxplore.com

cross-posted from: https://aussie.zone/post/1356760 > Lead author Dr. Rajeev Roychand from RMIT University said the team developed a technique to make concrete 30% stronger by turning waste coffee grounds into biochar, using a low-energy process without oxygen at 350 degrees Celsius. > > Australia generates 75 million kilograms of ground coffee waste every year-most of it goes to landfills. > > Published in the Journal of Cleaner Production, the study by RMIT engineers is the first to prove that waste coffee grounds can be used to improve concrete. > > "The inspiration for our work was to find an innovative way of using the large amounts of coffee waste in construction projects rather than going to landfills-to give coffee a 'double shot' at life," said Roychand, a Postdoctoral Research Fellow at RMIT. "Several councils that are battling with the disposal of organic waste have shown interest in our work." > > "The concrete industry has the potential to contribute significantly to increasing the recycling of organic waste such as used coffee." > > "Our research is in the early stages, but these exciting findings offer an innovative way to greatly reduce the amount of organic waste that goes to landfill." > > "Our research team has gained extensive experience in developing highly optimized biochars from different organic wastes, including wood biochar, food-waste biochar, agricultural waste biochar, and municipal solid-waste biochar, for concrete applications," Saberian said.

Carbon Dioxide Removal (CDR) CadeJohnson • 1 year ago • 100%

Is there a list of carbon sequestration projects?

cross-posted from: https://mander.xyz/post/2421501 > There seems to be a huge number of miscellaneous projects for a specific type of environmental restoration or some other activity that is specifically aimed at carbon sequestration. For example, seagrass restoration alone has a plethora(1,2,3). Is there a decent list of these projects? I found this cool list of CCS projects(4), but that’s different. > > If such a list exists, I have another question: Is there an objective way to compare their effectiveness? > > https://www.projectseagrass.org > > https://www.medseafoundation.org/index.php/en/portfolio-ita-2/a-sea-forest-to-save-the-planet/34 > > https://www.seegraswiesen.de/en/ > > https://en.m.wikipedia.org/wiki/List_of_carbon_capture_and_storage_projects

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Flame-shielded Kiln with Bamboo

[](https://postimg.cc/QHK19F2t) [](https://postimg.cc/v4R9WQyv) https://postimg.cc/gallery/KvR33Vh - so you can zoom in if you want.

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Biochar from sewage sludge: the phosphorus fertilizer for a safe and sustainable agriculture pyreg.com

The Danish EPA gives green light for appli­ca­tion of biochar from sewage sludge for use in farming: Biochar from sewage sludge can now be used as a ferti­lizer. The EBI calls on the EU Commis­sion to include biochar from sewage sludge in the EU Ferti­lizer Regu­la­tion as an important step towards a safe and sustainable circular economy and agri­cul­ture. Stan­dard hygie­niz­a­tion of sewage sludge e.g., heating of the sludge to 70°C, does not elimi­nate spores, pyro­gens or pathogens. Pyro­lysis elimi­nates micro­pol­lut­ants from sewage sludge. Evidence from the US EPA Office of Rese­arch and Deve­lo­p­ment work with Bioforcetech's commer­cially installed PYREG pyro­lysis plant shows that pyro­lysis at 600°C for 10 minutes and combus­tion of pyro­lysis gases at 850°C elimi­nate PFAS from sewage sludge. Pyro­lysis elimi­nates micro­plastics from sewage sludgeRese­arch indi­cates that sewage sludge is a sink for micro­plastics and further hand­ling of sewage sludge is critical for poten­tial dispersal. The phos­phorus present in the feed­stock is retained in the pyro­lysis char. Phos­phorus must be reco­vered from sewage sludge in more and more EU member states so that fields can be ferti­lized with this recy­cled phos­phorus in the future.

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Prepping for a biochar burn

Thinning out dead poles in preparation for a flame-shielded kiln burn session. This particular bamboo is very thin-walled and processes quickly (burns fast). Every few years or so, I thin out the dead poles for another session as I don't use it for anything else.   I wish there just a biochar community, I feel like content like this doesn't belong here?

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Alternative to phosphate fertilizer: Biochar basis controls plant response phys.org

cross-posted from: https://lemmy.world/post/2582945 > TL;DR: New research shows that biochar made from phosphate-poor feedstock encourages much more symbiosis with mycorrhizal fungi, compared to biochar made from phosphate-rich feedstock, which encourages very little mycorrhizal symbiosis.

Carbon Dioxide Removal (CDR) CadeJohnson • 1 year ago • 100%

Climate scientists: concept of net zero is a dangerous trap theconversation.com

Net Zero is when the bathtub quits overflowing, CDR is how we mop up the water and pump out the flooded basement.

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

tBJ:The use of biochar as building material (and some pics in the body of post) https://www.biochar-journal.org/en/ct/3

Besides the information in the article, I trialled an earth render (and earth mortar) using biochar as an additive. Here is a picture of an earth oven showing weathering from excessive storms: [](https://postimg.cc/YjHPHs7b) Underneath the render are mud bricks also featuring biochar: [](https://postimg.cc/CztHFRDS) [](https://postimg.cc/qgx5MxM0) [](https://postimg.cc/ZCYD9vCN)

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Valorization of Vetiver Root Biochar in Eco-Friendly Reinforced Concrete: Mechanical, Economic, and Environmental Performance www.mdpi.com

Abstract: Biochar has shown great promise in producing low-cost low-carbon concrete for civil infrastructure applications. However, there is limited research comparing the use of pristine and contaminated biochar in concrete. This paper presents comprehensive laboratory experiments and three-dimensional nonlinear finite element analysis on the mechanical, economical, and environmental performance of reinforced concrete beams made using concrete blended with biochar generated from vetiver grass roots after the roots were used in an oil extraction process. Both pristine biochar and biochar that were used to treat wastewater through adsorbing heavy metals (100 mg/L of Pb, Cu, Cd, and Zn) were investigated. The biochar was used to replace up to 6% Portland cement in concrete. Laboratory experiments were conducted to characterize the workability, mechanical properties, shrinkage, and leaching potential of the concrete blended with biochar. The results showed that using biochar could increase the compressive strengths and reduce the shrinkage of concrete without causing a leaching problem. The results from finite element analysis of the reinforced concrete beams showed that the use of biochar was able to increase the flexural performance of the beams as well as their economic and environmental performance. This research will promote the development and structural applications of low-cost low-carbon concrete.

Carbon Dioxide Removal (CDR) Treevan • 1 year ago • 100%

Moss on Biochar postimg.cc

Not strictly on topic but it is biochar and there is a plant on it. It's bamboo biochar as well. Content!

Carbon Dioxide Removal (CDR) ProdigalFrog • 1 year ago • 100%

The need for carbon removal is clear - A video illustrating different methods www.youtube.com