73% of US Voters Want Emissions Cut in Half by 2030: Poll

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Original article by JESSICA CORBETT republished from Common Dreams under Creative Commons (CC BY-NC-ND 3.0). 

Climate protestors march in Washington DC
Climate protestors take part in a march on April 29, 2023 in Washington, D.C.  (Photo: Samuel Corum/Getty Images)

One expert expressed hope that Democrats “realize that strong positions on abortion and climate change are no longer ‘partisan’ or ‘divisive’—religious freedom, bodily privacy, and saving the world are BIG TENT, winning issues.”

Polling results released Friday by CNN show that 73% of U.S. voters across the political spectrum believe the government should design policies to meet its commitment to cut planet-heating emissions in half by the end of this decade.

End Climate Science founding director Genevieve Guenther noted on social media that the overall figure includes 95% of Democrats, 76% of Independents, and even 50% of Republicans.

She expressed hope that the Democratic Party will now “realize that strong positions on abortion and climate change are no longer ‘partisan’ or ‘divisive’—religious freedom, bodily privacy, and saving the world are BIG TENT, winning issues.”

The survey was conducted by SSRS last month and the results were revealed during the United Nations Climate Change Conference (COP28) set to run through Tuesday—which U.S. President Joe Biden has been criticized for blowing off.

As CNN detailed:

Americans give Biden a 43% approval rating for his handling of environmental policy, which is several points above his overall approval rating and well above his numbers for handling the economy. But few Americans, only 2%, see climate change as the most important issue facing the country, giving higher priority to the economy and cost of living.

But climate change and clean energy are increasingly intertwined with the economy. Climate change-fueled disasters don’t just impact commerce, they also strike at the heart of the American dream: homeownership.

The approval and disapproval responses strongly correlate to political party, with far more Democrats backing Biden’s environmental policy.

Most Americans disapprove of President Biden’s handling of environmental policy

(Graphic: Matt Stiles/CNN)

Pollsters found that 58% of voters worry about the effects of extreme weather, 68% worry about the risks of climate change, and 79% think that climate change contributed to extreme weather in their area.

Large majorities of voters from the partisan spectrum agreed that humanity as a whole, the energy and automobile industries, and the U.S. and Chinese governments have some or even a great deal of responsibility to try to reduce climate change. Slightly smaller majorites said that those entities are doing “too little” to address the emergency.

Two-thirds of voters said that “requiring that all electricity in the U.S. be produced using renewable sources like solar and wind by the year 2035” as well as “offering federal tax credits for purchasing and installing home solar panels should be important, or even top priorities.

Even more (71%) noted the importance of “offering federal tax credits for purchasing and installing ultra-efficient home heating and cooling systems” along with “prioritizing investments in clean energy sources over energy from fossil fuels.” A slim majority (54%) prioritized “offering federal tax credits for purchasing an electric vehicle.”

While Biden—who is seeking reelection next year—campaigned on the promise of being a “climate president,” during his first term so far he has faced criticism from campaigners and frontline communities for declining to declare a national climate emergency, supporting the Willow oil project and Mountain Valley Pipeline, backing the expansion of liquefied natural gas exports, and continuing fossil fuel lease sales for public lands and waters.

The president has also had to contend with Republicans and right-wing Democrats in Congress who want to kill or water down climate policies. For example, this week, the House GOP has voted to block a proposed Biden administration rule meant to accelerate the transition to electric vehicles and advance various fossil fuel industry-friendly bills, including one that would saddle taxpayers with the cost of cleaning up oil and gas wells on federal lands.

This article’s headline has been corrected to say 73% of voters want U.S. emissions cut in half by 2030. A previous version stated voters want the emissions slashed by 2023.

Original article by JESSICA CORBETT republished from Common Dreams under Creative Commons (CC BY-NC-ND 3.0). 

Continue Reading73% of US Voters Want Emissions Cut in Half by 2030: Poll

Fossil Fuel Companies Made Bold Promises to Capture Carbon. Here’s What Actually Happened.

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Original article by Michael Buchsbaum and Edward Donnelly republished from DeSmog.

A DeSmog review of 12 large-scale projects reveals a litany of cost-overruns and missed targets, with a net increase in emissions.

Most of the 12 largest carbon capture and storage projects around the world are in the United States. Credit: Sabrina Bedford.

Carbon capture and storage (CCS) was high on the agenda at New York Climate Week last week, where critics of the technology raised concerns it would be used to extend the life of the fossil fuel industry.

For years, experts have pointed out that CCS has been primarily used to pump more oil out of the earth, using a process known as enhanced oil recovery (EOR). Burning that oil emits far more carbon dioxide (CO2) than what is captured, and therefore CCS doesn’t represent a viable solution to tackle climate change, critics argue. 

At a news conference after the one-day UN Climate Ambition Summit on September 20, Tzeporah Berman, chair of the Fossil Fuel Nonproliferation Treaty Initiative, said: “The oil companies acknowledged this year that they will not meet their bogus net zero commitments. The data showed us that their carbon capture plans are not working at scale.”

Below is a DeSmog review of the climate impact of 12 large-scale CCS projects around the world; what the fossil fuel industry promised, and what actually happened. Findings include a litany of missed carbon capture targets; cost-overruns, and billions of dollars of costs to taxpayers in the form of subsidies.

The data is drawn from various sources, including the Global CCS Institute; the International Energy Agency; the Institute for Energy Economics and Financial Analysis; the Geoengineering Monitor, and DeSmog research. Data on subsidies was provided by Oil Change International, which plans to launch a database of government support for CCS in 2024. Currency conversions were made in respect to exchange rates when subsidies were first announced or given. 

For more on the climate implications of CCS, see DeSmog’s accompanying news analysis: How Carbon Capture And Storage Projects Are Driving New Oil and Gas Extraction Globally.

What CCS Projects Promise. And What They Deliver.

1. Terrell Natural Gas Processing Plant (“Val Verde”)

Operator: Occidental Petroleum, 1972-present 

Location: Southeast of Ft. Stockton, Texas, USA

Stated maximum capacity: 0.5 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the Permian Basin

Public subsidies:  None

What they said would happen: More crude oil would be extracted using injected CO2.

What actually happened: It worked. Val Verde’s success served as a replicable model enabling the oil industry to pump more oil while claiming to be helping the climate. 

BackgroundThe world’s first industrial carbon capture facility began siphoning CO2 from a complex of West Texas gas processing plants in 1972. The gas was then piped across the region to boost the productivity of oil wellsNow owned by Occidental Petroleum and re-named the Terrell Natural Gas Processing Plant, the facility has aided in the production of millions of additional barrels of crude. 

Val Verde’s success helped the oil and gas sector develop a business model enabling them to profit long into the future. It simultaneously acted as a potential solution to the worsening greenhouse gas crisis, while still remaining the biggest source of that pollution.

The first dedicated facility to use injected CO2 to produce more oil, Val Verde was instrumental in pioneering enhanced oil recovery (EOR). The technique proved so successful that within a decade drillers had built thousands of miles of dedicated pipelines sending naturally occurring CO2 into oil fields in Texas, elsewhere in the U.S., and eventually other nations. 

Based upon Val Verde, since the 1970s, U.S. oil firms have led in the development of ever more efficient EOR-CCS technologies. Though now practiced globally, Texas’ Permian has the largest concentration of EOR operations. 

As awareness grew that burning fossil fuels was increasingly harmful to the environment, petroleum scientists began looking for industry-friendly solutions. Given that a fraction of the CO2 injected during EOR remains underground, as early as 1977 proponents suggested rebranding EOR into climate-friendlier carbon capture and sequestration (CCS). Envisioning installing capture units on fossil fuel-burning generation plants, particularly coal-fired power stations, backers saw this as an elegant response to growing concerns over carbon emissions. 

Fifty years later, Val Verde still serves as the industry’s model for “beneficial” CO2 usage, and EOR remains the main driver and successful business model for CCS.

2. Shute Creek Treating Facility

Operator: ExxonMobil1986-present 

Location: East of Kemmerer, Wyoming, USA

Stated maximum capacity: 7 million tonnes of CO2/year 

Storage methods: Enhanced oil recovery in Wyoming and neighboring states, limited geologic storage.

Public subsidies: None

What they said would happen: ExxonMobil points to Shute Creek to demonstrate its commitment to capturing ever more carbon.

What actually happened: Almost half the captured CO2 has been used to pump more oil; the rest has simply been vented into the atmosphere, in part because the plant failed to meet about a third of its capture targets.

Background: Owner ExxonMobil claims to have “cumulatively captured more anthropogenic CO2 than any other company” and estimates that its Shute Creek plant is responsible for 20 percent of the world’s yearly sequestered carbon. However, the plant — at Wyoming’s LaBarge gas field — wasn’t designed with climate targets in mind, but rather to produce gas, oil, and a fifth of the world’s helium supply. 

Most of the C02 captured in CCS plants are used to pump more oil. Credit: Buchsbaum Media.

Wyoming’s LaBarge gas field remained unexploited for decades due to its very high levels of CO2, making it a less than ideal source for natural gas production. Nonetheless, in the 1980s Exxon found that capturing carbon during gas processing and selling it for enhanced oil recovery in the surrounding region would make the Shute Creek operation profitable. As global oil prices fluctuated over the following years, carbon capture was paused at the plant during periods when CO2 demand for oil extraction dropped. 

According to a report from the Institute for Energy Economics and Financial Analysis (IEFFA), a nonprofit think tank, 47 percent of all CO2 captured by the plant has been sold for enhanced oil recovery over its lifetime, with only three percent of CO2 sequestered. The remaining 50 percent of CO2 produced by the plant — 120 million tonnes — has simply been vented to the atmosphere, making it a major source of greenhouse gas emissions. While some of this venting was planned, the plant has failed to meet about a third of its total carbon capture targets throughout its history, according to IEEFA. 

3. Sleipner and Snøhvit Projects 

Operator: Equinor (Statoil), 1996-present; Snøhvit since 2008

Location: Offshore (North Sea Sleipner West field), Norway

Stated maximum capacity: Sleipner 1 million tonnes of CO2/year

Stated maximum capacity: Snøhvit 0.7 million tonnes of CO2/year 

Storage methods: Geologic storage in the North Sea

Public subsidies: $175,000 

What they said would happen: Often cited as evidence that the oil industry has already perfected carbon capture and storage techniques.

What actually happened: Studies suggest the projects’ CO2 storage modeling is faulty, underscoring concerns that CO2 behavior remains highly unpredictable. 

BackgroundThe world’s first industrial-scale CCS project constructed for supposed carbon emissions abatement, Sleipner went into operation in 1996 after Norway’s pioneering carbon taxes came into effect.  

Given the relatively high CO2 volume contained within raw gas from the Sleipner West field, to ensure profitability under the new carbon taxes it became necessary to bury the gas. Storing this waste product underground continues to save Equinor hundreds of millions in annual taxes.

In near continuous operation since the mid-90s, and the largest CCS project yet conceived in the North Sea and Europe, Sleipner has a capacity to sequester almost a million tonnes of CO2 annually. 

However, stripping out and pumping all this CO2 back underground doesn’t render the refined gas as carbon neutral. Just the opposite: By some estimates, burning it has created roughly 25 times more CO2 than all that Equinor has sequestered.

Envisioned as a model enabling long-term oil and gas exploration despite emissions, since conception Sleipner has served as an international center of learning and a laboratory for generations of petroleum engineers. The knowledge gained continues to help Equinor and partners such as ExxonMobil expand and implement more CCS and EOR projects worldwide. 

However, though Sleipner was used as a guide for the 2009 EU directive on geological storage of carbon dioxide — now being reviewed to enable expanded CO2 storage and usage, IEEFA studies based on Norwegian reporting reveals evidence that both Sleipner and Snøhvit’s CO2 storage modeling is faulty, showcasing how CO2 behavior remains highly unpredictable, with potentially disastrous consequences. 

4. Kemper Project

Operator: Mississippi Power (Southern Energy Company), 2010-2021 (closed; renamed Plant Ratcliffe) 

Location: North of Meridian, Mississippi, USA

Stated maximum capacity during operations: 3 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the Gulf of Mexico

Public subsidies: $407 million

What they said would happen: Coal would be burned “cleanly” to produce power.

What actually happened: Costs more than doubled from initial estimates to $7.5 billion; leaks were found during testing and the carbon capture plant was eventually mothballed, then demolished.

Background: As climate policies began to call for a coal power phase-out in the early 2000s, carbon capture became a means to keep the coal industry alive in a “cleaner” form. Building upon a Bush Administration program, in 2008, the Kemper CCS facility was proposed as the flagship project of the U.S. government’s Clean Coal Power Initiative, receiving $407 million in federal subsidies. The plant, operated by Southern Energy company, was designed to gasify lignite (brown coal) and capture the carbon before combustion. 

The Kemper Project was shut down and is being rebuilt as Plant Ratcliff. Credit: Wikimedia CommonsCC BY-SA 3.0

However, the plant never reached its target of capturing 65 percent of its carbon emissions, which would have amounted to 3.0 million tonnes of CO2 per year. First, construction was delayed, and the initially estimated cost of $3 billion ballooned to $7.5 billion. Despite this massive increase in investment, the project’s coal gasification process did not operate reliably during testing as leaks were discovered.

In 2017, carbon capture operations were suspended as ongoing problems made the venture unprofitable. In 2021, the mothballed carbon capture unit was demolished. Today, the remaining Kemper power plant simply burns fossil gas, and “clean coal” remains an expensive and unproven emissions-reduction measure worldwide.  

5. Century Gas Processing Plant

Operator: Occidental Petroleum, 2010-present 

Location: East of Fort Stockton, Texas, USA

Stated maximum capacity: 8.4 million tonnes of CO2/year 

Note: The industry-backed Global CCS Institute says five million tonnes of CO2/ year, which was the plant’s actual operating capacity in 2022.

Storage method: Enhanced oil recovery 

Public subsidies: None

What they said would happen: The project will help usher in a new era of “net-zero oil.”

What’s actually happening: The plant could enable the development of approximately 500 million barrels of oil reserves more cheaply.

Background: With 25,000 miles of CO2 pipelines; 6,000 carbon injection wells spread over 1.4 million acres; and over 50 years of experience, Occidental Petroleum is perhaps the global leader in enhanced oil recovery. 

Boasting a capacity of over eight million tonnes of CO2 per year following a 2012 expansion, the $1.1 billion Century Gas Processing Plant in West Texas has the most storage potential in the U.S., though only about 60 percent of this was used last year, according to the Global CCS Institute. 

Despite its ambitions to expand its oil operations — Occidental Petroleum claims that its CO2-enhanced oil recovery could release the energy equivalent of two billion barrels of oil – the company is billing itself as a climate leader. Citing its “vast legacy” and core competency of CO2-enhanced oil recovery operations, the company says that using new technologies to capture carbon capture could be a “game changer” for the climate. Last year, Occidental started selling its first “Net Zero” oil to a Singapore-based commodities trader, based on direct air capture capacity yet to be installed, and earlier this year it began pre-selling carbon credits based on its eventual “low carbon” jet fuel to Airbus. 

The legacy of EOR-linked facilities, including the Century Gas Processing Plant, has so far been a net increase in global emissions. Various sources show that the oil and gas operations in the Permian Basin, where the plant is located, is the largest “climate bomb” in North America, and one of the world’s leading contributors to climate change. 

According to the Massachusetts Institute of Technology’s research entry on the Century Gas Processing Plant, it allows Occidental Petroleum to “develop approximately 500 million barrels of reserves from currently owned assets at an attractive cost.” 

6. Petra Nova 

Operator: Previously NRG Energy in partnership with JX Nippon Oil, 2017-2020; shut down in 2020 and now wholly only owned by JX Nippon, restarted September 2023

Location: Attached to one unit at the WA Parish Power Plant, Richmond, Texas, USA 

Stated maximum capacity during operations: 1.4 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the West Ranch oil field

Public subsidies: $190 million 

What they said would happen: Game-changing solution to fossil emissions.

What actually happened: Failed to meet capture targets; barely reduced overall carbon pollution.

Background: Petra Nova restarted just this September, two years after it was shut down in the early days of the COVID-19 pandemic when the price of West Texas crude oil crashed. The only ​​CCS unit attached to a coal-fired power plant in the United States, during its first short operating period it proved adept at EOR. However, independent analyses reveal that it both failed to meet its capture targets and, when taking lifecycle emissions into consideration, it barely reduced any overall carbon pollution. 

Hailed as a game-changing solution to rising greenhouse emissions from the fossil fuel industry, co-owners NRG Energy and Japan’s JX Nippon promised at the time that Petra Nova would revolutionize the sector and rescue the future of fossil fuel electricity generation. 

The $1 billion project (including a $190 million U.S. Department of Energy grant under the Clean Coal Initiative and a $250 million loan from the Japanese government) is attached to one 654 megawatt coal-unit of the monster NRG-owned W.A. Parish power facility near Houston, Texas. 

Ranked in 2019 as the ninth most carbon-emitting power plant in the U.S., Parish’s combined eight coal and fossil gas units annually belch over 15.1 million tonnes of CO2 into the atmosphere.

After capture and compression, CO2 is piped over 80 miles away to the West Ranch oil field for EOR. Before Petra Nova came online, only a measly 300 barrels a day were oozing from the field. But during Petra Nova’s first year of operations, that figure jumped to 4,000 a day. As pressure built, production soared by a factor of 50 to over 15,000 barrels per day.  

But when West Texas oil prices crashed at the end of March 2020, capturing and sequestering CO2 for EOR stopped making economic sense, and its owners mothballed the plant until oil markets improved.  

As to whether Petra Nova itself was actually capturing at 90 percent as project-backers claim, IEEFA’s research shows it rarely captured as much as 75 percent of passing CO2. Officially the U.S. Department of Energy states it captured only approximately 3.9 million short tons of CO2 during its first three years, shy of the 4.6 million tons developers had expected.

The Petra Nova CCS plant just restarted in September. Credit: NDLACC BY-NC-ND 2.0

Sole owner JX Nippon Oil & Gas Exploration Corp., Japan’s largest oil producer, proudly states that the restarted project will simultaneously achieve a dramatic increase in production from aging oil fields as well as cut atmospheric CO2 emissions in Texas. 

Continuing to masquerade as a climate-benefitting project, with oil prices currently inching towards $100 per barrel, the finances of running Petra Nova once again make sense. Going forward, EOR operations will again pay for CCS system operations while extending another chance to demonstrate how the technology can be viable at scale in what many see as a major test of efforts to sequester CO2 and store it permanently underground. 

That Petra Nova did virtually nothing previously to actually reduce overall CO2 emissions — more likely increasing them, is not seen as a bug, but a feature given that its sole purpose is to capture a portion of the plant’s pollution in order to produce more oil — a task it has demonstrably excelled in doing.

7. Gorgon Project

Operator: Chevron (47.3 percent), ExxonMobil (25 percent), Shell (25 percent), 2017-present  

Location: Barrow Island, Western Australia, Australia

Stated maximum capacity during operations: 4 million tonnes of CO2/year 

Public subsidies: $60 million Australian ($47 million U.S.)

What they said would happen: A flagship plant to store CO2 produced by drilling for offshore gas.

What actually happened: Project started years after drilling began; plagued by technical problems that meant it captured less than a quarter of what was promised.

Background: Chevron and its partners were allowed to build the $5.5 billion Gorgon LNG plant on the Barrow Island nature reserve for one reason only: to bury millions of tonnes of produced CO2 from offshore gas reservoirs into a formation deep under the island.

Theoretically capable of storing up to 4 million tonnes of CO2 per year and legally bound to capture 80 percent of its emissions, Gorgon has by all accounts failed spectacularly.

Although Gorgon’s gas plant produced its first LNG cargo in March 2016, the first CO2 injection didn’t begin until August 2019 — three and a half years behind schedule. And since then it’s only sequestered, on average, less than 1 million tonnes per year.

With barely a day going by when all elements of Gorgon’s CO2 injection system worked at the same time, a 2022 report by IEEFA found that Gorgon had missed its storage and emissions targets by some 50 percent during its first five years of operation. 

With CO2 leaking out of Gorgon’s assigned CO2 storage reservoir, in December 2020, regulators cut the permitted injection rate to 30 percent of maximum capacity until Chevron could fix its pressure management system without fracturing the rock around the injection wells and permanently damaging the system’s performance.

According to Australian and other publications: Gorgon failed to bury 9.5 million tonnes of carbon dioxide in its first five years of operations. In response to the shortfall, in 2021 Chevron announced it would buy 5.23 million tonnes of carbon offsets (many of which have subsequently proven to be junk). 

By all accounts Chevron continues to fall even further behind on its CO2 capture and storage targets, but the fossil fuel behemoth is being less than open about by how much.

What is certain is that Chevron’s gas refining has produced tremendous volumes of CO2 — little if any of which have been “sequestered”. 

Nevertheless, the Australian government has since approved two new massive offshore greenhouse gas storage areas, saying CCS “has a vital role to play” to help the country meet its net zero targets.

8. Abu Dhabi Steel CCS (Al Reyadah Project) 

Operators: ADNOC, Masdar, Emirates Steel, (2016 – present) 

Location: Mussafah, United Arab Emirates

Stated maximum capacity during operations: 0.8 million tonnes of CO2/year 

Storage method: Enhanced oil recovery 

Public subsidies: N/A

What they said would happen: A steel plant would be made climate-friendly.

What actually happened: The captured CO2 was used to pump more oil.

Background: The world’s only large-scale facility to capture emissions from steel production, the project promises to store up to 90 percent of all CO2 originating from the Emirates Steel plant near Abu Dhabi. From there, a pipeline carries the compressed gas to onshore oil fields, where it is used for enhanced oil recovery. The plant follows a trend of focusing carbon capture technology on “hard-to-abate” emissions from industrial sectors such as steel, cement and chemical production. 

“The success of this project will definitely be a catalyst for similar projects in the UAE and across the region,” said ADNOC head Sultan Ahmed Al Jaber, during a video interview promoting the project in 2014. Since the construction of the Al Reyadah Project, the UAE has announced new projects which would increase the country’s carbon capture capacity by over five times. ADNOC states that it will invest $15 billion in “low-carbon solutions,” with a heavy focus on CO2-enhanced oil recovery.  

ADNOC’s plans are helping to drive a CO2-enhanced oil recovery boom on the Arabian Peninsula. In 2019, Qatar announced a large-scale project to capture CO2 from liquified natural gas refining and storing it in geologic formations, but which has also been linked to eventual use for oil extraction. Neighboring Saudi Arabia built its first carbon capture plant in 2015 to extract oil from declining oil wells, and declared last year that a new carbon capture facility planned to start operations in 2027 would become the world’s largest, eventually aiming to capture 44 million tonnes of carbon dioxide per year by 2035. 

9. Boundary Dam 

Operator: Saskatchewan Power, 2014-present

Location: Estevan, Saskatchewan, Canada

Stated maximum capacity during operations: 1 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the Weyburn oil field (90 percent), geologic storage (10 percent)

Public subsidies: $240 million Canadian ($217 million U.S.)

What they said would happen: A world-leading “clean coal” facility.

What actually happened: Consistent failure to hit capture targets; captured CO2 used to pump more oil.

Background: When a carbon capture unit was attached to an aging section of a lignite-burning power station in Canada, expectations were high that the plant would become a world-leading “clean coal facility.” To fund the construction, the Canadian government gave $240 million CAD for the carbon capture venture. The plant would also solve the problem posed by a Canadian law passed in 2012, which mandated that all 50-year and older coal power stations be shut down unless they had a carbon capture retrofit. In the case of the targeted Boundary Dam unit, its operating life would have expired by 2019. 

Boundary Dam Power Station in Estevan, Saskatchewan. Credit: Flickr/Saskatchewan Power.

Rather than meeting its yearly target of one million tonnes of CO2 captured per year, the plant has consistently underperformed. By the company’s own accounting, the plant is on track to capture 750,000 tonnes of CO2 in 2023, matching similar results from 2022. In 2021, the carbon capture facility stored only about 442,000 tonnes, less than half of its intended annual capacity. 

This follows a similar trend of underperformance since Boundary Dam started running in 2016, according to an analysis from IEEFA. The report authors identified the project as “struggling” and found that it had barely reached its targeted 90 percent storage target on “any single day.” Most CO2 that was captured was sent to the nearby Weyburn oil field for enhanced oil recovery. 

10. Quest CCS 

Operator: Shell PLC, 2015 – present 

Location: Edmonton, Alberta, Canada

Stated maximum capacity during operations: 1.3 million tonnes of CO2/year 

Storage method: Enhanced oil recovery 

Public subsidies: $745 million Canadian ($654 million U.S.) 

What they said would happen: Touted as a “thriving example” of oil industry success in reducing emissions.

What actually happened: Less than 50 percent of emissions captured, relative to 90 percent target; overall emissions offset the carbon captured. 

Background: Designed to capture carbon emissions from Canadian Tar Sands operations and store them underground, Shell’s Quest plant is the world’s first to commercially produce so-called “blue hydrogen.” Blue hydrogen is the industry’s term for hydrogen produced by burning fossil gas through steam methane reformation. The process itself produces tremendous volumes of CO2 — hence the need to turn the hydrogen “blue” by burying the produced pollution underground.

With $654 million of the $1 billion cost of Quest coming from Canadian government subsidies, the plant’s operator, Shell, claimed it would help them reach its “net zero” target by 2050 while heralding the “exciting work” there to reduce emissions from industrial sources. 

Though touted as a “thriving example” of how CCS is working to significantly reduce carbon emissions, a 2022 investigation by Global Witness showed that despite 5 million tonnes of CO2 capture from 2015 to 2021, Quest released a further 7.5 million tonnes of GHG over the same period, and that just 48 percent of the plant’s carbon emissions were being captured, far short of the 90 percent carbon capture rate promised. 

Global Witness’ study found that the capture rate drops to only 39 percent when including other greenhouse gas emissions from Shell’s project.

11. Great Plains Synfuels Plant 

Operator: (Basin Electric), 2000 -to present 

Location: Near Beulah, North Dakota, USA

Stated maximum capacity during operations: 3 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the Weyburn and Midvale oil fields

Public subsidies: $1.5 billion from the U.S. Department of Energy

What they said would happen: World’s biggest project to capture carbon produced by burning coal. 

What actually happened: The captured CO2 is being used to extend the life of oilfields in Canada by 25 years.

Background: Dakota Gasification Company’s Great Plains Synfuels Plant boasts that it captures more CO2 from coal conversion than any facility in the world.

Starting with 18,000 tonnes of regionally mined lignite, the dirtiest of all coals, the Great Plains Synfuels Plant cooks and converts the lignite into methane gas, which it then transforms into ammonia for fertilizer, as well as other chemical products, while stripping out produced CO2 for eventual use in enhanced oil recovery. 

Since 2000, Great Plains Synfuels Plant remains the only CCS project to sell its CO2 cross border, compressing CO2 into a liquid and transporting it via a 320-kilometer pipeline to the Weyburn and Midale oil fields in Alberta. Each ton of injected CO2 increases oil production in Weyburn by almost three barrels.

CO2 enhanced oil recovery operation will enable an additional 130 million barrels of oil to be produced, extending the field’s commercial life by around 25 years.

Inside the Great Plains Synfuel Plant in 2009. Credit: Buchsbaum

One of the most Republican-leaning states in the U.S., where many consider climate change a hoax, North Dakota’s state government has been more than happy to take advantage of the Biden administration’s Inflation Reduction Act, given its tax credits for capturing and storing CO2 emissions.

Seeking to take advantage of those credits to increase revenue, North Dakota’s Industrial Commission recently unanimously approved a 32-square-mile expansion of the subterranean storage area for carbon from the synfuels plant.

Even though Great Plains sends 2 million tonnes of CO2 a year into the Weyburn Field for EOR, “there’s another 1.5 million potential of CO2 that’s produced at that plant today that’s not being captured, so they have the opportunity to capture that extra 1.5 million right there and get paid,” North Dakota Governor and State Industrial Commission Chair Doug Burgam has argued

State Department of Mineral Resources Director Lynn Helms also said that more CO2 will be needed to sustain regional oil production for the long term. Calling for more CCS or CO2 pipelines, Helms lamented that current CO2 production only meets about 10 percent of what is needed for enhanced oil recovery.

“We’ve got to find a way for carbon capture and utilization to become a part of North Dakota’s economy or we will leave billions of barrels of oil in the ground,” Helms said in August. 

12. Santos Basin Pre-Salt Oil Field CCS

Operator: Petrobras, 2012-present 

Location: Atlantic Ocean (300 km west of Rio de Janeiro state), Brazil 

Stated maximum capacity during operations: 10.6 million tonnes of CO2/year 

Storage method: Enhanced oil recovery in the offshore Santos Basin

Public subsidies: N/A

What they said would happen: World’s biggest offshore CCS project would slash industry’s carbon footprint. 

What actually happened: Successful use of captured CO2 to dramatically expand offshore oil production is triggering a new oil boom.

Background: Operating at over a hundred wells in Brazil’s vast ultra-deep water oil fields, Petrobras boasted the highest amount of CO2 stored in 2022, about a quarter of total human-built carbon sequestration capacity The first project of its kind globally, the company claims that offshore carbon capture has reduced the lifecycle carbon footprint of a barrel of oil by 39 percent. The CO2 used to extract oil in the Santos Basin comes from the natural gas also produced by the field, which is separated on  specialized floating platforms, and repurposed for additional profit. 

Petrobras’ experiment has paid off handsomely. CO2 injection has boosted productivity in the Santos Basin, even though it once was deemed a difficult area to extract oil due to hard-to-drill salt formations on the ocean floor. In 2022, Petrobras reinjected a world-leading 10.6 Mt of CO2 directing the gas to extract more oil, which will be refined, transported, and burned to emit more CO2 into the atmosphere. Recently, the company announced its new target of approximately 80 million metric tonnes of CO2 reinjection by 2025 in CCS projects.

Other major oil companies operating in the deep sea region might be taking notes, leading to an offshore oil boom in Brazil. These international firms include Norway’s Equinor, which aims to boost its Brazil-based oil production by more than fivefold over the next 10 years. 

Additional reporting by Dana Drugmand in New York.

Original article by Michael Buchsbaum and Edward Donnelly republished from DeSmog.

Synopsis by dizzy: Enhanced Oil Recovery rebranded as Carbon Capture and Storage as a public relations exercise.

As awareness grew that burning fossil fuels was increasingly harmful to the environment, petroleum scientists began looking for industry-friendly solutions. Given that a fraction of the CO2 injected during EOR remains underground, as early as 1977 proponents suggested rebranding EOR into climate-friendlier carbon capture and sequestration (CCS). Envisioning installing capture units on fossil fuel-burning generation plants, particularly coal-fired power stations, backers saw this as an elegant response to growing concerns over carbon emissions. 

Why the Belief That Carbon Capture Technologies Can Work at Gigaton-Scale Is a Gigantic Gamble

Big Oil’s Been Secretly Validating Critics’ Concerns about Carbon Capture

‘Inoculate From Criticism’: A Closer Look at the Public Relations Companies Active at COP28

Report: Canada and U.S. Are Top Public Funders for CCS with Nations Prepared to Inject $200 Million More

Continue ReadingFossil Fuel Companies Made Bold Promises to Capture Carbon. Here’s What Actually Happened.

‘This may be our last chance’: Cop28 talks enter final phase

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Canadian wildfire 2023
Canadian wildfire 2023


The next few days could be the world’s last chance of keeping global heating within safe limits, nations meeting for the Cop28 UN climate summit have been told.

With talks in Dubai now entering their final phase, the world’s governments are still far apart on the central question of whether to phase out fossil fuels.

Dan Jørgensen, Denmark’s climate minister, who has been charged with one of the key roles in forging an agreement among deeply divided governments, said: “We cannot negotiate with nature. The climate cannot compromise. No well meaning words will change a single thing unless we act. This week may be our last opportunity to bring us on course to keeping 1.5C alive.”

Jørgensen, along with the South African minister Barbara Creecy, will chair negotiations on the global stocktake, a process under the 2015 Paris climate agreement that assesses progress – or the lack of it – towards meeting the treaty’s goals of holding global temperature rises “well below” 2C and “pursuing efforts” to keep them to 1.5C above pre-industrial levels.

It is well established that the world is far off track to stay within those limits, which scientists say are vital to staving off the worst impacts of the climate crisis. Average temperatures for this year are likely to break records and come close to the 1.5C threshold, and on current trends the world will hit 3C of heating, rendering swathes of the planet effectively uninhabitable.

For those reasons, the global stocktake will also contain recommendations to governments for a “course correction”, asking them to change policies and bring in measures that will reduce greenhouse gas emissions drastically. The latest draft was published on Friday, and is currently being examined, but there are likely to be more iterations of it before the end of the talks.

Romain Ioualalen, global policy manager at Oil Change International, a pressure group, said: “It shows unprecedented momentum for an agreement on phasing out all fossil fuels, owing to the relentless pressure from people and governments that are aligned with the science. The Cop president emphasised again today that 1.5C is his north star – and he must deliver on that promise with a Cop decision to build a fast, fair, full and financed fossil fuel phase-out rooted in equity, and enabled by governments redirecting trillions in finance from fossil fuel industry handouts to the real solution: renewable energy and energy efficiency.”

As well as phasing down fossil fuels, countries are being asked to triple global renewable energy generation and to double energy efficiency. The former is already likely to be met, on current trends, and the latter should save money amid high fossil fuel prices and a cost of living crisis around the world.

Developing countries are also concerned that a target to double the amount of finance they get to help them adapt to the impacts of the climate crisis has also not been met. Stiell called for more progress on this issue. “I don’t want to see diversions and political tactics that hold climate adaptation hostage,” he warned.



Failure to agree fossil fuel phase-out at Cop28 ‘will push world into climate breakdown’

Failure to agree a phase-out of fossil fuels at the UN Cop28 climate summit would push the world beyond the crucial 1.5C temperature limit and into climate breakdown, the UK’s former climate chief has warned.

Alok Sharma, who was president of the Cop26 summit in Glasgow, said it was vital that governments made a clear commitment in the next few days to eliminate coal, oil and gas.

“If you’re going to keep 1.5C alive, you’re going to have to have language on a phase-out of fossil fuels,” he told the Observer in an interview. “And you’re going to need to accompany that with a credible implementation plan.”

He urged governments to act. “We are running out of time. The window on 1.5C is closing fast, and unless we are willing to act now, with the urgency that this issue demands, we will lose that 1.5C,” he said. “We are literally in the last chance saloon to save our children’s future.”

More than 190 governments are meeting in Dubai for the final days of the Cop28 summit, which runs until Tuesday, with the question of whether to phase out fossil fuels at the top of the agenda. At least 100 countries are in favour of a phase-out, but some major fossil fuel producers – including Saudi Arabia, China and India – are opposed.

Sharma was credited with keeping 1.5C “alive” against the odds at the Glasgow summit he led in 2021, when he managed to forge a deal among more than 190 squabbling countries that focused on the goal of limiting global temperature rises to 1.5C above pre-industrial levels.


Greenpeace: COP28 must answer the call for a fossil fuel phase out

Dubai, UAE – As COP28 resumes for a second week, negotiators will be faced with answering the call for a commitment to a Fossil Fuel Phase Out in Dubai. Never before have we heard so many voices, coming from so many directions to seize the moment and commit to phasing out oil, coal and gas. And never before have alternative formulations on fossil fuel phase out made it this far into a draft text. But there are still no guarantees on a decision on fossil fuels, so all is in play.

Kaisa Kosonen, Head of the Greenpeace COP28 delegation said: “We are here to make fossil fuels history. By now governments know they can’t leave this summit without an agreement to end fossil fuels, in a fast and fair manner. Now the question is what is the package of solutions, support and cooperation that will get us over the finishing line. It’s clear that developed countries are the ones that need to take the lead here.

The solutions are ready – a fast and fair transition to renewable energy is possible – but it won’t happen fast enough unless we push the fossil fuel industry out of the way.

George Monbiot: Cop28 is a farce rigged to fail, but there are other ways we can try to save the planet

Continue Reading‘This may be our last chance’: Cop28 talks enter final phase

‘Call to Action’: CO2 Now at Levels Not Seen in 14 Million Years

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Original article by OLIVIA ROSANE republished from Common Dreams under Creative Commons (CC BY-NC-ND 3.0). 

An image shows the edge of the Greenland ice sheet, where recent melting has left bare ground.  (Photo: Kevin Krajick/Columbia University)

“It really brings it home to us that what we are doing is very, very unusual in Earth’s history,” the lead author of a new study said.

The last time that levels of atmospheric carbon dioxide were as high as they are today, Greenland was free of ice and the savanna and grassland ecosystems where humans evolved didn’t exist yet.

That’s the conclusion of a study published in Science Friday, which researchers say compiles “the most reliable data available to date” on atmospheric carbon dioxide levels over the last 66 million years.

“It really brings it home to us that what we are doing is very, very unusual in Earth’s history,” lead author Baerbel Hoenisch of the Columbia Climate School’s Lamont-Doherty Earth Observatory toldAgence France-Presse.

“We’ve already pushed the atmosphere way beyond anything we’ve seen as a species.”

By burning fossil fuels and clearing natural carbon sinks like forests, industrial capitalism has raised global carbon dioxide levels to 419 parts per million (ppm) today from around 280 ppm at the beginning of the industrial revolution.

“Rising atmospheric CO2 is the most obvious and startling expressions of our impact on the global environment,” study corresponding author and University of Utah geologist Gabe Bowen wrote on social media. “The concentration has risen by ~50% in the past 100 years. Every year is now marked by the highest CO2 levels *ever observed* by humans!”

To understand how such a spike in carbon dioxide might impact Earth’s climate and ecosystems, it’s helpful to look at the pa st. This presents challenges, however, because the most reliable record of past carbon dioxide concentrations—gas bubbles preserved in ice cores—only goes back to around 800,000 years ago, when atmospheric concentrations of carbon dioxide were still at around preindustrial levels.

“Once you lose the ice cores, you lose direct evidence. You no longer have samples of atmospheric gas that you can analyze,” Bowen said in a University of Utah press release. “So you have to rely on indirect evidence, what we call proxies. And those proxies are tough to work with because they are indirect.”

Proxies are evidence in the geologic record that can stand in for carbon dioxide levels, such as mineral isotopes or the shape of fossilized leaves. Scientists have looked at these proxies before, but the current study represents the most comprehensive effort to date. A team of around 90 researchers from 16 countries spent seven years synthesizing and reviewing previous work under the banner of the Cenozoic CO2 Proxy Integration Project, according to the University of Utah and AFP.

The new study represents the scientific consensus on the carbon dioxide record, and it concludes that the last time carbon dioxide levels were around 419 ppm was 14 million years ago. That’s much earlier than previous estimates of 3 to 5 million years ago.

However, the record goes back further than that to the Cenozoic Era, when the dinosaurs died and mammals began to emerge.

That record revealed a very clear pattern, Bowen tweeted: “CO2 goes up, the world warms. CO2 down, and things get icy.”

The record enabled the scientists to predict the consequences of current and projected carbon dioxide levels.

“This is an incredibly important synthesis and has implications for future climate change as well, particularly the key processes and components of the Earth system that we need to understand to project the speed and magnitude of climate change,” University of Utah biology professor William Anderegg said in the press release.

One of the report’s messages, Bowen tweeted is that “the future is now.”

“We’ve already pushed the atmosphere way beyond anything we’ve seen as a species,” Bowen continued, “and if it stays this way we’re in for big changes in the environment we live in.”

If policy-makers don’t restrict the burning of fossil fuels, atmospheric carbon dioxide could reach 600 to 800 ppm by 2100, AFP reported. According to the record, the last time levels were this high was 30 to 40 million years ago, when Antarctica was also ice-free and the Earth was home to giant insects.

Even today’s concentrations are bound to have lasting consequences. For example, when carbon dioxide levels rapidly increased around 56 million years ago, it significantly altered ecosystems and took around 150,000 years to decrease again.

“We are in this for a very long time,” Hoenisch told AFP, “unless we sequester carbon dioxide, take it out of the atmosphere, and we stop our emissions sometime soon.”

However, the that doesn’t mean the most extreme changes are locked-in. Instead, Bowen tweeted that the report was a “call to action.”

“The geological changes we studied lasted for thousands and millions of years,” Bowen said, “and if human-induced CO2 change is short-lived it won’t have as big an impact on the climate.”

Original article by OLIVIA ROSANE republished from Common Dreams under Creative Commons (CC BY-NC-ND 3.0). 

Continue Reading‘Call to Action’: CO2 Now at Levels Not Seen in 14 Million Years