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	<title>Intergovernmental Panel on Climate Change (IPCC) - Garner Ted Armstrong Evangelistic Association</title>
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		<title>Are Electric Cars Really Greener?</title>
		<link>https://www.garnertedarmstrong.org/are-electric-cars-really-greener/?utm_source=rss&#038;utm_medium=rss&#038;utm_campaign=are-electric-cars-really-greener</link>
		
		<dc:creator><![CDATA[André Gonçalves]]></dc:creator>
		<pubDate>Mon, 05 Jul 2021 10:37:23 +0000</pubDate>
				<category><![CDATA[Breaking News]]></category>
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		<category><![CDATA[Antonio Guterres (UN)]]></category>
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		<category><![CDATA[CO2 emissions]]></category>
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					<description><![CDATA[<p>Published at 2018, September 25th Are electric cars (EC) really greener and eco-friendly? They seem to be a great solution to fight climate change and they are even said to have zero emissions. But are they worth it? Is it &#8230; <a class="kt-excerpt-readmore" href="https://www.garnertedarmstrong.org/are-electric-cars-really-greener/" aria-label="Are Electric Cars Really Greener?">Read More</a></p>
<p>The post <a href="https://www.garnertedarmstrong.org/are-electric-cars-really-greener/">Are Electric Cars Really Greener?</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></description>
										<content:encoded><![CDATA[<p class="article__date">Published at 2018, September 25<sup>th</sup></p>
<p>Are electric cars (EC) really greener and eco-friendly? They seem to be a great solution to fight climate change and they are even said to have zero emissions. But are they worth it? Is it true that they are harmless to the planet?</p>
<p>&#8220;<em>Climate change is, quite simply, an existential threat for most life on the planet – including, and specially, the life of humankind.&#8221;<br />
</em></p>
<p><a href="https://news.un.org/en/story/2018/05/1009782">Said</a> António Guterres, the Secretary-General the United Nations, in May 2018. But he’s not standing alone. From the <a href="http://www.ipcc.ch/">IPCC</a> to <a href="https://climate.nasa.gov/effects/">NASA</a>, <a href="https://www.wwf.org.uk/effectsofclimatechange">WWF</a> or <a href="https://www.cdp.net/en">CDP</a>, all these important entities agree on this phenomena’s spin-off and are committed to fighting it.</p>
<p>From the loss of sea ice and the increase in sea levels to the occurrence of extreme events such as hurricanes, droughts or intensive heat waves, it’s hard to deny the dimension of what we are fighting here. And there’s <a href="https://www.nature.com/articles/nature08823">more to come</a> if we reach the temperature increase of 2° Celsius.</p>
<p>In an attempt to minimize these consequences, scientists have been looking into what may be the main causes of climate change. They found out that <a href="https://youmatter.world/en/definition/definitions-greenhouse-effect-what-is-it-definition-and-role-in-global-warming/" target="_blank" rel="noopener noreferrer">greenhouse gases (GHG)</a> like carbon dioxide, methane or nitrous oxide, and aerosols are changing the atmosphere and leaving the planet more exposed.</p>
<p>The Intergovernmental Panel on Climate Change (IPCC) <a href="https://www.ipcc.ch/pdf/assessment-report/ar5/wg3/drafts/fgd/ipcc_wg3_ar5_summary-for-policymakers_approved.pdf">pointed out</a> that of the 49 Gt Co2 eq released into the atmosphere in 2010, 14% was released by transportation vehicles. And despite being already a big number, this doesn’t even consider the Co2 impact of complementary activities such as manufacturing vehicles or getting road surfaces worn.</p>
<p>As cars <a href="https://www.ipcc.ch/pdf/assessment-report/ar5/wg3/ipcc_wg3_ar5_chapter8.pdf">make up</a> 72% of the Co2 emissions in this sector (followed by planes, with 10%), the market of electric cars has been growing and seems to be a good solution to fight climate change. But is it true that EVs have zero emissions?</p>
<h2>Are Electric Greener Than Fossil Fuel Powered Cars?</p>
<p><img decoding="async" src="https://youmatter.world/app/uploads/sites/2/2018/09/electric-cars-fuel-cars.jpg" alt="electric; cars; eco-friendly; emissions; zero; planet: powered" /></h2>
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<p>The fundamental difference between conventional, thermal cars and electric cars has to do with the process of transforming the potential (stored) energy into kinetic (movement) energy.  In thermal cars, this energy is stored in a chemical form and is released through a chemical reaction inside the engine.</p>
<p>On the other hand, despite also having chemically stored energy, electric cars release it electrochemically without any kind of combustion, thanks to lithium-ion batteries. This means that there is no fuel being burned and therefore no air pollution through CO2 happening while driving. They are also <a href="http://www.withouthotair.com/c20/page_131.shtml">more efficient</a> than fossil cars. So is this a clear win for the electric movement? Are electric cars and vehicles greener?</p>
<p>Not necessarily. Or better said, not always. If the source of energy to power these cars doesn’t come from solar panels, wind turbines or even nuclear or hydroelectric, their CO2 emissions will be much higher. For instance, if the electricity used to charge cars comes from the burning of fossil fuels, it doesn’t matter if the EC are not polluting while being driven, as this pollution was already released in some distant power plant.</p>
<p>This means that if you’re driving an electric car in the US, where fossil fuels <a href="https://www.eia.gov/tools/faqs/faq.php?id=427&amp;t=3">accounted</a> 62,7% of the country’s energy production in 2017, you’ll probably release more CO2 into the atmosphere than if you’re driving it in Iceland, that runs <a href="http://www.iea.org/statistics/?country=ICELAND&amp;year=2016&amp;category=Key%20indicators&amp;indicator=TPESbySource&amp;mode=chart&amp;categoryBrowse=false&amp;dataTable=BALANCES&amp;showDataTable=true">almost entirely</a> on hydro, geothermal and solar energy.</p>
<p>As for the UE28, forecasts are encouraging, being expected that the EU grid mix will come down from 300gCO2 eq/km in 2015 to 200gCO2 eq/km in 2030, and 80gCO2 eq/km in 2050. But let’s assume a scenario where cars are 100% powered with <a href="https://youmatter.world/en/renewable-energy-definition-examples-benefits-and-limitations/" target="_blank" rel="noopener noreferrer">renewable</a> or clean energy. Could we then say electric cars have zero emissions?</p>
<h2 id="anchor_1">Does The Manufacturing Of Electric Cars Have Zero Emissions? How Eco-Friendly Is The Process?</h2>
<p><img decoding="async" src="https://youmatter.world/app/uploads/sites/2/2018/09/shutterstock_733812400.jpg" alt="manufacturing; battery; electric; cars; eco-friendly; emissions; zero; planet: powered" /></p>
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<p>The cycle of making a car starts with raw materials being extracted, refined, transported, and manufactured into several components that will be assembled to produce the car itself. This process is very much the same in both conventional and electric cars. Nevertheless, at the end of the manufacturing process, electric cars are the ones generating more carbon emissions, <a href="https://www.ucsusa.org/sites/default/files/attach/2015/11/Cleaner-Cars-from-Cradle-to-Grave-full-report.pdf">according</a> to the Union of Concerned Scientists.</p>
<p>Why is this? Because electric cars <a href="https://www.ucsusa.org/sites/default/files/attach/2015/11/Cleaner-Cars-from-Cradle-to-Grave-full-report.pdf">store energy</a> in large batteries (the larger they are, the bigger their range is) that have high environmental costs. This happens because these batteries are <a href="https://www.generalkinematics.com/blog/electric-vehicles-and-the-effect-on-the-metal-market/">made of</a> rare earth elements (REE) like lithium, nickel, cobalt, or graphite that only exist beneath the surface of the Earth and therefore depend on mining activities with very polluting processes. That’s why asking whether electric cars are greener or not does come with an easy answer.</p>
<p>For instance, to produce 1 ton of REE, 75 tons of acid waste (that isn’t always handled in the right way) and 1 ton of radioactive residues are also made, according to the <em>Chinese Society of Rare Earths. </em>In spite of these pollution issues, research tells us not to worry about the availability of these rare earth elements and when it comes to lithium, there is <a href="https://minerals.usgs.gov/minerals/pubs/mcs/2018/mcs2018.pdf">data</a> estimating enough worldwide reserves for the next 185 years, even if the EC market triples, according to the <a href="https://www.bloomberg.com/graphics/2017-lithium-battery-future/">Deutsche Bank</a>. As for cobalt, graphite, and nickel, they also seem to be in a comfortable situation, since the demand for the years to come is expected to stay far away from the reserves Earth has to offer. Although it looks like everything will work out just fine, let’s not forget the negative environmental impact of extracting REEs.</p>
<p>Apart from the weight of the REE, the energy used to produce the batteries themselves is also responsible for nearly half of their environmental impact since most of this energy doesn’t come from low carbon sources. Nevertheless, forecasts show that the electricity generation is improving and there are more renewable sources entering the grid, which would help decrease the ecological footprint of building up these batteries.</p>
<p>On the other hand, developing renewable energy systems has its impact as well, again using energy and REE. In the end, we should be reasonable about this and despite their initial footprint, the impact of lithium-ion batteries, when compared to conventional cars, is <a href="https://www.ucsusa.org/sites/default/files/attach/2015/11/Cleaner-Cars-from-Cradle-to-Grave-full-report.pdf">offset</a> within 6 to 16 months of average driving (using clean energy) in the US or <a href="https://www.theicct.org/sites/default/files/publications/EV-life-cycle-GHG_ICCT-Briefing_09022018_vF.pdf">2 years</a> in the EU. From this moment on, EC keep being a better eco-alternative to conventional cars until their battery gets to the end of its life cycle. But what happens next? How are lithium-ion batteries being handled when they’re no longer useful for electric cars?</p>
<h2>Where Do Electric Cars’ Batteries Go To? Are They Recycled In An Eco-Friendly Way?<br />
<img decoding="async" src="https://youmatter.world/app/uploads/sites/2/2018/09/lithium-battery-electric-car.jpg" alt="lithium-battery-cars; eco-friendly; emissions; zero; planet: powered" /></h2>
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<p>In the conventional car industry, according to a study from the <em>international council of clean transportation (ICCT)</em>, 99% of lead-acid batteries (the ones running in fossil fuel-powered cars) are recycled in the US. This is not the case for lithium-ion batteries that have a very specific mix of chemical components and little quantities of lithium, which doesn’t make them an appealing market opportunity. For instance, in the EU market, in 2011, only <a href="http://www.foeeurope.org/sites/default/files/publications/13_factsheet-lithium-gb.pdf">5%</a> of lithium was being collected and the rest was either incinerated or dumped in landfills (this specifically doesn’t make electric cars greener at all), as it was <a href="https://www.researchgate.net/profile/Linda_Gaines/publication/265158823_Paper_No_11-3891_Life-Cycle_Analysis_for_Lithium-Ion_Battery_Production_and_Recycling/links/547336180cf216f8cfaeb58a/Paper-No-11-3891-Life-Cycle-Analysis-for-Lithium-Ion-Battery-Production-and-Recycling.pdf">not justified</a> by price or regulations to recover it by hydrometallurgical processes.</p>
<p>Nevertheless, the more batteries that are out there, since the electric cars market is growing, the more interesting it gets to try to figure out how to recycle them or recapture rare earth elements. So the chances are that a strong recycling industry for these batteries will keep developing and allowing electric cars to become greener.</p>
<p>Meanwhile, another solution might have to do with <a href="https://www.theicct.org/sites/default/files/publications/EV-life-cycle-GHG_ICCT-Briefing_09022018_vF.pdf">reusing</a> these batteries and giving them a second life since they are able to support the electric grid of buildings and to store energy from wind or solar electricity sources. This would also help offset the environmental impacts of making the batteries in the first place since they are amortized over a longer period of time.</p>
<p>In The End, Are Electric Cars Really Eco-Friendly And Zero Emissions?</p>
<p><img decoding="async" src="https://youmatter.world/app/uploads/sites/2/2018/09/electric-car-zero-emissions-eco-friendly.jpg" alt="electric; cars; eco-friendly; emissions; zero; planet: powered" /></p>
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<p>No, electric cars are not zero-emissions vehicles. We have seen that although they do not emit CO2 while being driven, they might do it in 3 other stages: during manufacturing, energy production, and at the end of their life cycle. In the first case, the need for mining activities to extract the rare earth metals that are used in batteries is very energy-consuming and polluting.</p>
<p>As for energy production, if the car is being powered with energy from burning fossil fuels, it is still releasing CO2 in the atmosphere, not from the tailpipe but from some distant power plant. When it comes to batteries being recycled, it is still an expensive and ongoing process and most batteries are not being recycled yet.</p>
<p>In spite of this, solutions to make electric cars greener and more eco-friendly, and <a href="https://youmatter.world/en/definition/definitions-sustainability-definition-examples-principles/" target="_blank" rel="noopener noreferrer">sustainable</a> are being developed. And although there is room for improvement, we have also seen that electric cars, as they are today, are already, in general, more eco-friendly along their <a href="https://youmatter.world/en/definition/definitions-life-cycle-analysis-product/" target="_blank" rel="noopener noreferrer">lifecycle</a> than the conventional fossil fuel cars, especially if they are powered with clean electricity. Some countries are already realizing this and that’s why they are fostering the growth of the electric cars market, mostly by giving fiscal benefits that make the cars economically more competitive. In fact, countries like Norway, Germany, or Costa Rica are simultaneously increasing their bet on renewable energies and setting deadlines for the end of conventional cars in their roads.</p>
<p>But in the end, are electric vehicles the solution for our sustainability problem on mobility? We are running to avoid the 2° Celsius temperature increase and prevent the bad consequences of climate change from happening. But is preventing the bad the same as planning for the best?</p>
<p>We have REE for some time but do we truly have enough for the long run? <a href="https://www.un.org/development/desa/en/news/population/2018-revision-of-world-urbanization-prospects.html">UN forecasts</a> are that 68% of the world population will live in urban areas in 2050, so issues like traffic, parking, and high consumption rates will need to be managed as well.</p>
<p>The truth is that public transportation is a <a href="https://www.apta.com/mediacenter/ptbenefits/Pages/default.aspx">better option</a> than using individual vehicles if we want to lower our <a href="https://youmatter.world/en/definition/definitions-carbon-footprint/" target="_blank" rel="noopener noreferrer">carbon footprint</a>, so shouldn’t we be more worried about reinventing it? At the same time, some scientists <a href="https://pdfs.semanticscholar.org/59b0/07b8cef0424d21be86de2589a905a9033efd.pdf">say</a> that the <a href="https://youmatter.world/en/definition/the-sharing-economy-definition-examples-and-figures/" target="_blank" rel="noopener noreferrer">sharing economy</a> of cars, or even motorbikes or bicycles, will be the next stage in the evolution of mobility, with new business models already being developed. Let’s embrace the change?</p>
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<p>Source: <a href="https://youmatter.world/en/are-electric-cars-eco-friendly-and-zero-emission-vehicles-26440/" target="_blank" rel="noopener">https://youmatter.world/en/are-electric-cars-eco-friendly-and-zero-emission-vehicles-26440/</a></p>
[<a href="https://www.garnertedarmstrong.org/news/disclaimer/" target="_blank" rel="noopener">Disclaimer</a>]
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</em></strong></p><p>The post <a href="https://www.garnertedarmstrong.org/are-electric-cars-really-greener/">Are Electric Cars Really Greener?</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></content:encoded>
					
		
		
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		<title>The device that reverses CO2 emissions</title>
		<link>https://www.garnertedarmstrong.org/the-device-that-reverses-co2-emissions/?utm_source=rss&#038;utm_medium=rss&#038;utm_campaign=the-device-that-reverses-co2-emissions</link>
		
		<dc:creator><![CDATA[Frank Swain - BBC]]></dc:creator>
		<pubDate>Wed, 07 Apr 2021 07:21:12 +0000</pubDate>
				<category><![CDATA[Breaking News]]></category>
		<category><![CDATA[News]]></category>
		<category><![CDATA[Carbon Engineering]]></category>
		<category><![CDATA[climate change]]></category>
		<category><![CDATA[CO2 capture]]></category>
		<category><![CDATA[CO2 emissions]]></category>
		<category><![CDATA[Direct Air Capture (DAC)]]></category>
		<category><![CDATA[Intergovernmental Panel on Climate Change (IPCC)]]></category>
		<category><![CDATA[Paris Agreement]]></category>
		<category><![CDATA[Steve Oldham]]></category>
		<category><![CDATA[World News]]></category>
		<guid isPermaLink="false">http://www.garnertedarmstrong.org/?p=39112</guid>

					<description><![CDATA[<p>(Image credit: Carbon Engineering) Cooling the planet by filtering excess carbon dioxide out of the air on an industrial scale would require a new, massive global industry – what would it need to work? The year is 2050. Walk out &#8230; <a class="kt-excerpt-readmore" href="https://www.garnertedarmstrong.org/the-device-that-reverses-co2-emissions/" aria-label="The device that reverses CO2 emissions">Read More</a></p>
<p>The post <a href="https://www.garnertedarmstrong.org/the-device-that-reverses-co2-emissions/">The device that reverses CO2 emissions</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></description>
										<content:encoded><![CDATA[<p><img fetchpriority="high" decoding="async" class="" src="https://ychef.files.bbci.co.uk/976x549/p0997v43.png" alt="Carbon Engineering is planning the world's largest direct air capture plant, in Texas, USA (Credit: Carbon Engineering)" width="686" height="386" /><br />
(Image credit: Carbon Engineering)</p>
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<div class="article__intro b-font-family-serif">Cooling the planet by filtering excess carbon dioxide out of the air on an industrial scale would require a new, massive global industry – what would it need to work?</p>
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<p>The year is 2050. Walk out of the Permian Basin Petroleum Museum in Midland, Texas, and drive north across the sun-baked scrub where a few remaining oil pumpjacks nod lazily in the heat, and then you&#8217;ll see it: a glittering palace rising out of the pancake-flat ground. The land here is mirrored: the choppy silver-blue waves of an immense solar array stretch out in all directions. In the distance, they lap at a colossal grey wall five stories high and almost a kilometer long. Behind the wall, you glimpse the snaking pipes and gantries of a chemical plant.</p>
<p>As you get closer you see the wall is moving, shimmering – it is entirely made up of huge fans whirring in steel boxes. You think to yourself that it looks like a gigantic air conditioning unit, blown up to incredible proportions. In a sense, that&#8217;s exactly what this is. You&#8217;re looking at a direct air capture (DAC) plant, one of tens of thousands like it across the globe. Together, they&#8217;re trying to cool the planet by sucking carbon dioxide out of the air. This Texan landscape was made famous for the billions of barrels of oil pulled out of its depths during the 20th Century. Now the legacy of those fossil fuels – the CO2 in our air – is being pumped back into the emptied reservoirs.</p>
<p>If the world is to meet Paris Agreement goals of limiting global warming to 1.5C by 2100, sights like this may be necessary by mid-century.</p>
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<h4 class="simple-header b-reith-sans-font b-font-family-serif b-font-weight-300 simple-header--serif-light-italic simple-p-tag--medium simple-p-tag--quote">We have a climate change problem and it&#8217;s caused by an excess of CO2. With direct air capture, you can remove any emission, anywhere, from any moment in time – Steve Oldham</h4>
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<p>But step back for a moment to 2021, to Squamish, British Columbia where, against a bucolic skyline of snowy mountains, the finishing touches are being put to a barn-sized device covered in blue tarpaulin. When it becomes operational in September, Carbon Engineering&#8217;s prototype direct air capture plant will begin scrubbing a tonne of CO2 from the air every year. It is a small start, and a somewhat larger plant in Texas is in the works, but this is the typical scale of a DAC plant today.</p>
<p>&#8220;We have a climate change problem and it&#8217;s caused by an excess of CO2,&#8221; says Carbon Engineering chief executive Steve Oldham. &#8220;With DAC, you can remove any emission, anywhere, from any moment in time. It&#8217;s very powerful tool to have.&#8221;</p>
<p>Most carbon capture focuses on cleaning emissions at the source: scrubbers and filters on smokestacks that prevent harmful gases reaching the atmosphere. But this is impractical for small, numerous point sources like the planet&#8217;s billion or so automobiles. Nor can it address the CO2 that is already in the air. That&#8217;s where direct air capture comes in.</p>
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<h4 class="simple-header b-reith-sans-font b-font-family-serif b-font-weight-300 simple-header--serif-light-italic simple-p-tag--medium simple-p-tag--quote">The number of things that would have to happen without direct air capture are so stretching and multiple it&#8217;s highly unlikely we can meet the Paris Agreements without it – Ajay Gambhir</h4>
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<p>If the world wants to avoid catastrophic climate change, switching to a carbon-neutral society is not enough. The Intergovernmental Panel on Climate Change (IPCC) <a href="https://www.ipcc.ch/sr15/">has warned</a> that limiting global warming to 1.5C by 2100 will require technologies such as DAC for &#8220;large-scale deployment of carbon dioxide removal measures&#8221; – large-scale meaning many billions of tonnes, or gigatonnes, each year. Elon Musk <a href="https://www.technologyreview.com/2021/01/21/1016600/what-musks-100-million-carbon-capture-prize-could-mean/">recently pledged $100m (£72m)</a> to develop carbon capture technologies, while companies such as <a href="https://blogs.microsoft.com/blog/2021/01/28/one-year-later-the-path-to-carbon-negative-a-progress-report-on-our-climate-moonshot/">Microsoft</a>, <a href="https://www.reuters.com/article/united-arlns-climate-occidental-idUSKBN28K1NE">United Airlines</a>, and <a href="https://www.businessgreen.com/news/4026618/exxonmobil-launches-business-geared-ccs-low-carbon-technologies">ExxonMobil</a> are making billion-dollar investments in the field.</p>
<p>&#8220;Current models suggest we&#8217;re going to need to remove 10 gigatonnes of CO2 per year by 2050, and by the end of the century that number needs to double to 20 gigatonnes per year,&#8221; says Jane Zelikova, a climate scientist at the University of Wyoming. Right now, &#8220;we&#8217;re removing virtually none. We&#8217;re having to scale from zero.&#8221;</p>
<p><img decoding="async" class="" src="https://ychef.files.bbci.co.uk/976x549/p0997w2d.jpg" alt="Carbon Engineering's pilot plant in British Columbia, is the &quot;cookie cutter&quot; model for much larger DAC plants (Credit: Carbon Engineering)" width="683" height="384" /><br />
Carbon Engineering&#8217;s pilot plant in British Columbia is the &#8220;cookie-cutter&#8221; model for much larger DAC plants (Credit: Carbon Engineering)</p>
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<p>Carbon Engineering&#8217;s plant in Squamish is designed as a testbed for different technologies. But the firm is drawing up blueprints for <a href="https://carbonengineering.com/news-updates/expanding-dac-plant/">a much larger plant</a> in the oil fields of West Texas, which would fix 1 million tonnes of CO2 annually. &#8220;Once one is done, it&#8217;s a cookie-cutter model, you simply build replicas of that plant,&#8221; says Oldham. Yet he admits the scale of the task ahead is dizzying. &#8220;We need to pull 800 gigatonnes out of the atmosphere. It&#8217;s not going to happen overnight.&#8221;</p>
<p><strong>Blue-sky thinking</strong></p>
<p>The science of direct air capture is straightforward. There are several ways to do it, but the one that Carbon Engineering&#8217;s system uses fans to draw air containing 0.04% CO2 (today&#8217;s atmospheric levels) across a filter drenched in potassium hydroxide solution – a caustic chemical commonly known as potash, used in soapmaking and various other applications. The potash absorbs CO2 from the air, after which the liquid is piped to a second chamber and mixed with calcium hydroxide (builder&#8217;s lime). The lime seizes hold of the dissolved CO2, producing small flakes of limestone. These limestone flakes are sieved off and heated in a third chamber, called a calciner, until they decompose, giving off pure CO2, which is captured and stored. At each stage, the leftover chemical residues are recycled back in the process, forming a closed reaction that repeats endlessly with no waste materials.</p>
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<h4 class="simple-header b-reith-sans-font b-font-family-serif b-font-weight-300 simple-header--serif-light-italic simple-p-tag--medium simple-p-tag--quote">We&#8217;re past the point where reducing emissions needed to take place. We&#8217;re locking in our reliance on DAC more and more – Jane Zelikova</h4>
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<p>With <a href="https://www.bbc.co.uk/news/science-environment-55018581">global carbon emissions continuing to rise</a>, the climate target of 1.5C is looking less and less likely without interventions like this.</p>
<p>&#8220;The number of things that would have to happen without direct air capture are so stretching and multiple it&#8217;s highly unlikely we can meet the Paris Agreements without it,&#8221; says Ajay Gambhir, senior researcher at the Imperial College Grantham Institute for Climate Change and an author of a <a href="https://www.nature.com/articles/s41467-019-10842-5">2019 paper on the role of DAC in climate mitigation</a>.</p>
<p>The IPCC does present some climate-stabilizing models that don&#8217;t rely on direct air capture, but Gambhir says these are &#8220;extremely ambitious&#8221; in their assumptions about advances in energy efficiency and people&#8217;s willingness to change their behaviour.</p>
<p>&#8220;We&#8217;re past the point where reducing emissions needed to take place,&#8221; says Zelikova. &#8220;We&#8217;re locking in our reliance on DAC more and more.&#8221;</p>
<p>DAC is far from the only way carbon can be taken out of the atmosphere. Carbon can be removed naturally through land-use changes such as <a href="https://www.bbc.co.uk/news/uk-49074872">restoring peatland</a>, or most popularly, planting forests. But this is slow and would require huge tracts of valuable land – foresting an area the size of the United States, <a href="https://www.reuters.com/article/us-global-forests-climate-change-idUSKBN1X1173">by some estimates</a>, and <a href="https://www.nature.com/articles/s41558-020-0876-z">driving up food prices five-fold</a> in the process. And in the case of trees, the carbon removal effect is limited, as they will eventually die and release their stored carbon unless they can be felled and burned in a closed system. <em>(<a href="https://www.bbc.com/future/article/20200521-planting-trees-doesnt-always-help-with-climate-change">Read more about why planting trees doesn’t always help with climate change</a>)</em></p>
<p>The scale of the challenge for carbon removal using technologies like DAC, rather than plants, is no less gargantuan. Gambhir&#8217;s paper calculates that simply keeping pace with <a href="https://ourworldindata.org/co2-emissions">global CO2 emissions – currently 36 gigatonnes per year</a> – would mean building in the region of 30,000 large-scale DAC plants, <a href="https://www.carbonbrief.org/direct-co2-capture-machines-could-use-quarter-global-energy-in-2100">more than three for every coal-fired power station operating in the world today</a>. Each plant would cost <a href="https://www.chron.com/business/energy/article/Oxy-moves-forward-on-Permian-direct-air-capture-13867251.php">up to $500m (£362m) to build</a> – coming in at a cost of up to $15 trillion (£11tn).</p>
<p><img decoding="async" class="" src="https://ychef.files.bbci.co.uk/976x549/p0997wfj.jpg" alt="Climeworks' facility near Zurich, Switzerland, sells the CO2 it captures to nearby vegetable growers for their greenhouses (Credit: Alamy)" width="686" height="386" /><br />
Climeworks&#8217; facility near Zurich, Switzerland, sells the CO2 it captures to nearby vegetable growers for their greenhouses (Credit: Alamy)</p>
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<p>Every one of those facilities would need to be stocked with solvent to absorb CO2. <a href="https://www.nature.com/articles/s41467-019-10842-5">Supplying a fleet of DAC plants big enough to capture 10 gigatonnes of CO2 every year</a> will require around four million tonnes of potassium hydroxide, the entire annual global supply of this chemical <a href="https://www.imarcgroup.com/global-caustic-potash-market">one and a half times over</a>.</p>
<p>And once those thousands of DAC plants are built, they also need power to run. &#8220;If this was a global industry absorbing 10 gigatonnes of CO2 a year, you would be expending 100 exajoules, about a sixth of total global energy,&#8221; says Gambhir. Most of this energy is needed to heat the calciner to around 800C – too intense for electrical power alone, so each DAC plant would need a gas furnace, and a ready supply of gas.</p>
<p><strong>Costing the planet</strong></p>
<p>Estimates of how much it costs to capture a tonne of CO2 from the air vary widely, ranging from $100 to $1,000 (£72 to £720) per tonne. Oldham says that most figures are unduly pessimistic – he is confident that Climate Engineering can fix a tonne of carbon <a href="https://www.sciencedirect.com/science/article/pii/S2542435118302253">for as little as $94 (£68)</a>, especially once it becomes a widespread industrial process.</p>
<p>A bigger issue is figuring out where to send the bill. Incredibly, saving the world turns out to be a pretty hard sell, commercially speaking. Direct air capture does result in one valuable commodity, though: thousands of tonnes of compressed CO2. This can be combined with hydrogen to make synthetic, carbon-neutral fuel. That could then be sold or burned in the gas furnaces of the calciner (where the emissions would be captured and the cycle continue once again).</p>
<p>Surprisingly, one of the biggest customers for compressed CO2 is the fossil fuel industry.</p>
<p>As wells run dry, it&#8217;s not uncommon to squeeze the remaining oil out of the ground by pressuring the reservoir using steam or gas in a process called enhanced oil recovery. Carbon dioxide is a popular choice for this and comes with the additional benefit of locking that carbon underground, completing the final stage of carbon capture and storage. Occidental Petroleum, which has partnered with Carbon Engineering to build a full-scale DAC plant in Texas, <a href="https://www.chron.com/business/energy/article/Oxy-moves-forward-on-Permian-direct-air-capture-13867251.php">uses 50 million tonnes of CO2 every year</a> in enhanced oil recovery. Each tonne of CO2 used in this way is <a href="https://www.iea.org/reports/direct-air-capture">worth about $225 (£163) in tax credits alone</a>.</p>
<p>It&#8217;s perhaps fitting that the CO2 in our air is eventually being returned underground to the oil fields from whence it came, although maybe ironic that the only way to finance this is in the pursuit of yet more oil. Occidental and others hope that by pumping CO2 into the ground, they can drastically reduce the carbon impact of that oil: a typical enhanced-recovery operation sequesters one tonne of CO2 for every 1.5 tonnes it ultimately releases in fresh oil. So while the process reduces the emissions associated with oil, it doesn&#8217;t balance the books.</p>
<p>Though there are other uses that may become more commercially viable. Another direct air capture company, Climeworks, has 14 smaller-scale units in operation sequestering 900 tonnes of CO2 a year, which it sells to a greenhouse to <a href="https://www.bloomberg.com/news/articles/2017-05-31/swiss-pickles-set-to-benefit-from-first-carbon-capture-plant">enhance the growth of pickles</a>. It&#8217;s now working on a longer-term solution: a plant under construction in Iceland will mix captured <a href="https://www.bbc.com/future/article/20200616-how-iceland-is-undoing-carbon-emissions-for-good">CO2 with water and pump it 500-600m (1,600-2,000ft) underground, where the gas will react with the surrounding basalt and turn to stone</a>. To finance this, it offers businesses and citizens the ability to buy carbon offsets, <a href="https://climeworks.com/subscriptions">starting at a mere €7 (£6) per month</a>. Can the rest of the world be convinced to buy in?</p>
<p><img loading="lazy" decoding="async" class="" src="https://ychef.files.bbci.co.uk/976x549/p0997vhj.jpg" alt="Enhancing the growth of vegetables in greenhouses is one application for the CO2 captured from the air by DAC (Credit: Alamy)" width="686" height="386" /><br />
Enhancing the growth of vegetables in greenhouses is one application for the CO2 captured from the air by DAC (Credit: Alamy)</p>
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<p>&#8220;DAC is always going to cost money, and unless you&#8217;re paid to do it, there is no financial incentive,&#8221; says Chris Goodall, author of <em>What We Need To Do Now: For A Zero-Carbon Future</em>. &#8220;Climeworks can sell credits to virtuous people, write <a href="https://www.climate-kic.org/news/climeworks-added-to-microsofts-climate-portfolio/">contracts with Microsoft</a> and <a href="https://stripe.com/en-es/climate">Stripe</a> to take a few hundred tonnes a year out of the atmosphere, but this needs to be scaled up a millionfold, and that requires someone to pay for it.</p>
<p>&#8220;There are subsidies for electric cars, cheap financing for solar plants, but you don&#8217;t see these for DAC,&#8221; says Oldham. &#8220;There is so much focus on emission reduction, but there isn&#8217;t the same degree of focus on the rest of the problem, the volume of CO2 in the atmosphere. The big impediment for DAC is that thinking isn&#8217;t in policy.&#8221;</p>
<p>Zelikova believes that DAC will follow a similar path to other climate technologies, and become more affordable. &#8220;We have well-developed cost curves showing how technology can go down in cost really quickly,&#8221; says Zelikova. &#8220;We surmounted similar hurdles with wind and solar. The biggest thing is to deploy them as much as possible. It&#8217;s important for government to support commercialization – it has a role as a first customer and a customer with very deep pockets.&#8221;</p>
<p>Goodall advocates for a global carbon tax, which would make it expensive to emit carbon unless offsets were purchased. But he recognizes this is still a politically unpalatable option. Nobody wants to pay higher taxes, especially if the externalities of our high-energy lifestyles – increasing wildfires, droughts, floods, sea-level rise – are seen as being shouldered by somebody else.</p>
<p>Zelikova adds we also need broader conversation in society about how much these efforts should cost. &#8220;There is an enormous cost in climate change, in induced or exacerbated natural disasters. We need to do away with idea that DAC should be cheap.&#8221;</p>
<p><strong>Risk and reward</strong></p>
<p>Even if we agree to build 30,000 industrial-scale DAC plants, find the chemical materials to run them, and the money to pay for it all, we won&#8217;t be out of the woods yet. In fact, we might end up in a worse position than before, thanks to a phenomenon known as mitigation deterrence.</p>
<p><img loading="lazy" decoding="async" class="" src="https://ychef.files.bbci.co.uk/976x549/p0997wn4.jpg" alt="Facilities in Iceland are among those aiming to mineralise CO2, to lock it out of circulation in the atmosphere as a long-term solution (Credit: Sandra O Snaebjornsdottir)" width="686" height="386" /><br />
Facilities in Iceland are among those aiming to mineralize CO2, to lock it out of circulation in the atmosphere as a long-term solution (Credit: Sandra O Snaebjornsdottir)</p>
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<p>&#8220;If you think DAC is going to be there in the medium- to long-term, you will not do as much near-term emissions reduction,&#8221; explains Gambhir. &#8220;If the scale-up goes wrong – if it turns out to be difficult to produce the sorbent, or that it degrades more quickly, if it&#8217;s trickier technologically if turns out to be more expensive than expected, then in a sense by not acting quickly in the near-term, you&#8217;ve effectively locked yourself into a higher temperature pathway.&#8221;</p>
<p>Critics of DAC point out that much of its appeal lies in the promise of a hypothetical technology that allows us to continue living our carbon-rich lifestyles. Yet Oldham argues that for some hard-to-decarbonize industries, such as aviation, offsets that fund DAC might be the most viable option. &#8220;If it&#8217;s cheaper and easier to pull carbon out of air than to stop going up in the air, maybe that is what DAC plays in emission control.&#8221;</p>
<p>Gambhir argues that it&#8217;s not an &#8220;either-or&#8221; situation. &#8220;We need to rapidly reduce emissions in the near-term, but at the same time, determinedly develop DAC to work out for sure if it&#8217;s going to be there for us in the future.&#8221; Zelikova agrees: &#8220;It&#8217;s a &#8216;yes, and&#8217; situation,&#8221; she says. &#8220;DAC is a critical tool to balance out the carbon budget, so what we can&#8217;t eliminate today can be removed later.&#8221;</p>
<p>As Oldham seeks to scale up Carbon Engineering, the biggest fundamental factor is proving large-scale DAC is &#8220;feasible, affordable and available&#8221;. If he&#8217;s successful, the future of our planet’s climate may once again be decided in the oil fields of Texas.</p>
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<p><em>The emissions from travel it took to report this story were 0kg CO2. The digital emissions from this story are an estimated 1.2g to 3.6g CO2 per page view. </em><a href="https://www.bbc.com/future/article/20200131-why-and-how-does-future-planet-count-carbon">Find out more about how we calculated this figure here</a><em>.</em></p>
<p>CO2, to lock it out of circulation in the atmosphere as a long-term solution (Credit: Sandra O Snaebjornsdottir)</p>
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<p>Source: <a href="https://www.bbc.com/future/article/20210310-the-trillion-dollar-plan-to-capture-co2" target="_blank" rel="noopener">https://www.bbc.com/future/article/20210310-the-trillion-dollar-plan-to-capture-co2</a></p>
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</div><p>The post <a href="https://www.garnertedarmstrong.org/the-device-that-reverses-co2-emissions/">The device that reverses CO2 emissions</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></content:encoded>
					
		
		
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		<title>Bill Gates-Backed Carbon Capture Plant Does The Work Of 40 Million Trees</title>
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		<pubDate>Wed, 07 Apr 2021 07:44:37 +0000</pubDate>
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<p>The post <a href="https://www.garnertedarmstrong.org/bill-gates-backed-carbon-capture-plant-does-the-work-of-40-million-trees/">Bill Gates-Backed Carbon Capture Plant Does The Work Of 40 Million Trees</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></description>
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<p>&nbsp;</p><p>The post <a href="https://www.garnertedarmstrong.org/bill-gates-backed-carbon-capture-plant-does-the-work-of-40-million-trees/">Bill Gates-Backed Carbon Capture Plant Does The Work Of 40 Million Trees</a> first appeared on <a href="https://www.garnertedarmstrong.org">Garner Ted Armstrong Evangelistic Association</a>.</p>]]></content:encoded>
					
		
		
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