The receiving dock at the Northern Lights carbon capture and storage project, controlled by Equinor ASA, Shell Plc and TotalEnergies SE, at Blomoyna, Norway, on Friday, Jan. 19, 2024.
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Norway’s government wants to show the world it is possible to safely inject and store carbon waste under the seabed, saying the North Sea could soon become a “central storage camp” for polluting industries across Europe.
Offshore carbon capture and storage (CCS) refers to a range of technologies that seek to capture carbon from high-emitting activities, transport it to a storage site and lock it away indefinitely under the seabed.
The oil and gas industry has long touted CCS as an effective tool in the fight against climate change and polluting industries are increasingly looking to offshore carbon storage as a way to reduce planet-warming greenhouse gas emissions.
Critics, however, have warned about the long-term risks associated with permanently storing carbon beneath the seabed, while campaigners argue the technology represents “a new threat to the world’s oceans and a dangerous distraction from real progress on climate change.”
Norway’s Energy Minister Terje Aasland was bullish on the prospects of his country’s so-called Longship project, which he says will create a full, large-scale CCS value chain.
“I think it will prove to the world that this technology is important and available,” Aasland said via videoconference, referring to Longship’s CCS facility in the small coastal town of Brevik.
“I think the North Sea, where we can store CO2 permanently and safely, may be a central storage camp for several industries and countries and Europe,” he added.
Storage tanks at the Northern Lights carbon capture and storage project, controlled by Equinor ASA, Shell Plc and TotalEnergies SE, at Blomoyna, Norway, on Friday, Jan. 19, 2024.
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Norway has a long history of carbon management. For nearly 30 years, it has captured and reinjected carbon from gas production into seabed formations on the Norwegian continental shelf.
It’s Sleipner and Snøhvit carbon management projects have been in operation since 1996 and 2008, respectively, and are often held up as proof of the technology’s viability. These facilities separate carbon from their respective produced gas, then compress and pipe the carbon and reinject it underground.
“We can see the increased interest in carbon capture storage as a solution and those who are skeptical to that kind of solution can come to Norway and see how we have done in at Sleipner and Snøhvit,” Norway’s Aasland said. “It’s several thousand meters under the seabed, it’s safe, it’s permanent and it’s a good way to tackle the climate emissions.”
Both Sleipner and Snøhvit projects incurred some teething problems, however, including interruptions during carbon injection.
Citing these issues in a research note last year, the Institute for Energy Economics and Financial Analysis, a U.S.-based think tank, said that rather than serving as entirely successful models to be emulated and expanded, the problems “call into question the long-term technical and financial viability of the concept of reliable underground carbon storage.”
‘Overwhelming’ interest
Norway plans to develop the $2.6 billion Longship project in two phases. The first is designed to have an estimated storage capacity of 1.5 million metric tons of carbon annually over an operating period of 25 years — and carbon injections could start as early as next year. A possible second phase is predicted to have a capacity of 5 million tons of carbon.
Campaigners say that even with the planned second phase increasing the amount of carbon stored under the seabed by a substantial margin, “it remains a drop in the proverbial bucket.” Indeed, it is estimated that the carbon injected would amount to less than one-tenth of 1% of Europe’s carbon emissions from fossil fuels in 2021.
The government says Longship’s construction is “progressing well,” although Aasland conceded the project has been expensive.
“Every time we are bringing new technologies to the table and want to introduce it to the market, it is having high costs. So, this is the first of its kind, the next one will be cheaper and easier. We have learned a lot from the project and the development,” Aasland said.
“I think this will be quite a good project and we can show the world that it is possible to do it,” he added.
Workers at an entrance to the CO2 pipeline access tunnel at the Northern Lights carbon capture and storage project, controlled by Equinor ASA, Shell Plc and TotalEnergies SE, at Blomoyna, Norway, on Friday, Jan. 19, 2024.
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A key component of Longship is the Northern Lights joint venture, a partnership between Norway’s state-backed oil and gas giant Equinor, Britain’s Shell and France’s TotalEnergies. The Northern Lights collaboration will manage the transport and storage part of Longship.
Børre Jacobsen, managing director for the Northern Lights Joint Venture, said it had received “overwhelming” interest in the project.
“There’s a long history of trying to get CCS going in one way or another in Norway and I think this culminated a few years ago in an attempt to learn from past successes — and not-so-big successes — to try and see how we can actually get CCS going,” Jacobsen told CNBC via videoconference.
Jacobsen said the North Sea was a typical example of a “huge basin” where there is a lot of storage potential, noting that offshore CCS has an advantage because no people live there.
A pier walkway at the Northern Lights carbon capture and storage project, controlled by Equinor ASA, Shell Plc and TotalEnergies SE, at Blomoyna, Norway, on Friday, Jan. 19, 2024.
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“There is definitely a public acceptance risk to storing CO2 onshore. The technical solutions are very solid so any risk of leakage from these reservoirs is very small and can be managed but I think public perception is making it challenging to do this onshore,” Jacobsen said.
“And I think that is going to be the case to be honest which is why we are developing offshore storage,” he continued.
“Given the amount of CO2 that’s out there, I think it is very important that we recognize all potential storage. It shouldn’t actually matter, I think, where we store it. If the companies and the state that controls the area are OK with CO2 being stored on their continental shelves … it shouldn’t matter so much.”
Offshore carbon risks
A report published late last year by the Center for International Environmental Law (CIEL), a Washington-based non-profit, found that offshore CCS is currently being pursued on an unprecedented scale.
As of mid-2023, companies and governments around the world had announced plans to construct more than 50 new offshore CCS projects, according to CIEL.
If built and operated as proposed, these projects would represent a 200-fold increase in the amount of carbon injected under the seafloor each year.
Nikki Reisch, director of the climate and energy program at CIEL, struck a somewhat cynical tone on the Norway proposition.
“Norway’s interpretation of the concept of a circular economy seems to say ‘we can both produce your problem, with fossil fuels, and solve it for you, with CCS,'” Reisch said.
“If you look closely under the hood at those projects, they’ve faced serious technical problems with the CO2 behaving in unanticipated ways. While they may not have had any reported leaks yet, there’s nothing to ensure that unpredictable behavior of the CO2 in a different location might not result in a rupture of the caprock or other release of the injected CO2.”
The Hyundai IONIQ 6 N is finally here, and it delivers. Hyundai’s electric sports car is loaded with fun new features, a sleek design (including a massive rear wing), 641 horsepower, and much more.
Meet the Hyundai IONIQ 6 N
After teasing the new model for the first time last month, Hyundai created quite a buzz. Now, we are finally getting our first look at the upgraded high-performance EV.
Hyundai unveiled the new IONIQ 6 N at the famed Goodwood Festival of Speed on Thursday in West Sussex, England. The upgraded model follows Hyundai’s first high-performance EV, the IONIQ 5 N.
At the event, the company boasted that its new electric sports car marks “a pivotal milestone in Hyundai N’s electrification journey,” adding “Hyundai N is once again redefining the boundaries of high-performance electrification with the debut of the IONIQ 6 N.”
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The IONIQ 6 N delivers an impressive 641 horsepower (478 kW) and 77 Nm of torque, enabling a 0 to 100 km/h (0 to 62 mph) sprint in just 3.2 seconds. Its top speed is about 160 mph (257 km/h).
Hyundai IONIQ 6 N (Source: Hyundai)
That’s when using Hyundai’s Launch Control, one of the many performance features the new EV offers. Like its other N models, the IONIQ 6 is based on three pillars: Corner Rascal, Racetrack Capability, and, of course, an Everyday Sportscar.
Powered by two electric motors, a 223 hp (166 kW) at the front and another 378 hp (282 kW) motor at the rear, for a combined 600 hp (448 kW).
Hyundai IONIQ 6 N (Source: Hyundai)
Redefining the EV driving experience
The upgraded IONIQ 6 “redefines the EV driving experience,” according to Hyundai, thanks to its advanced in-house vehicle control software.
Central to this is Hyundai’s N Active Sound + system, which mimics the feel and sound of a traditional engine. An added N e-Shift simulates shifting gears.
Hyundai IONIQ 6 N interior (Source: Hyundai)
And that’s just the start. Other performance features, such as N Drift Optimizer, N Grin Boost, and N Torque Distribution, give you even more control over the vehicle while delivering increased power.
The IONIQ 6 N is powered by an 84 kWh battery, providing a WLTP range of up to 291 miles (469 km). However, EPA figures will be revealed closer to launch. Given the IONIQ 5 N has an EPA-estimated range of up to 221 miles, you can expect it to be slightly higher when it arrives.
With a 350 kW DC fast charger, Hyundai’s new performance EV can recharge from 10% to 80% in about 18 minutes.
With a length of 4,935 mm, a width of 1,940 mm, and a height of 1,495 mm, the IONIQ 6 N is about the size of the Porsche Taycan.
Hyundai will showcase the new high-performance EV during the hillclimb event alongside other models like the IONIQ 5 N, IONIQ 6 N Drift Spec, and IONIQ 6 N with N Performance parts. Hyundai promises each vehicle brings unique capabilities to the event, “guaranteeing a dynamic and thrilling on-track experience for all attendees.” Check back soon for more info.
What do you think of Hyundai’s new electric sports car? Would you buy one over the Porsche Taycan? Let us know in the comments.
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Elon Musk said that Tesla owners will “soon” have access to Grok, a large language developed by Musk’s xAI startup, days after the AI started calling itself ‘MechaHitler’.
Yesterday, xAI launched Grok 4, the latest version of its large language model.
The new model is benchmarking very well, but that’s generally the case with the latest model to come out. It edges the latest models from Google and OpenAI on intelligence by a few points, but it falls behind on speed:
At the launch event, Musk announced that Grok will “soon” be integrated into Tesla vehicles.
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This is something that the CEO has been discussing since founding xAI, which has been controversial because Musk has also positioned Tesla to compete in the AI space. He even stepped down from his role at OpenAI due to a “conflict of interest with Tesla.”
The announcement of the imminent integration of Grok into Tesla vehicles comes just days after the language model went haywire on X and started praising Hitler, referring to itself as ‘MechaHitler’, and made several antisemitic comments.
xAI acknowledge the issue and put Grok on timeout while they fixed it:
We are aware of recent posts made by Grok and are actively working to remove the inappropriate posts. Since being made aware of the content, xAI has taken action to ban hate speech before Grok posts on X. xAI is training only truth-seeking and thanks to the millions of users on X, we are able to quickly identify and update the model where training could be improved.
The “bug” came just a few weeks after Musk stated that he was displeased with Grok supporting left-wing narratives, even though it didn’t say anything inncurate, and that he would update Grok to “fix” it.
Now, the large language model (LLM) is expected to power the new voice assistant inside Tesla vehicles.
LLMs are becoming quite common in cars, especially premium vehicles. Ford, Mercedes-Benz, Stellantis, and a few others have all integrated Chat-GPT in some models.
Many Chinese automakers have also developed their own and deployed them in cars, even entry-level ones.
Tesla is playing catch up on that front.
Electrek’s Take
As I have previously stated, I think Musk is setting up Tesla to invest or even merge with xAI at a ridiculous valuation – making Tesla shareholders virtually pay twice for Twitter, which is now part of xAI.
This is how he will be able to gain wider control over the company’s share.
From the first discovery in Prudhoe Bay in 1968, Alaskans have had a love-hate relationship with oil.
On one hand, it allowed Alaska to abolish its state income tax, fund most government operations and provide every Alaskan with a dividend that continues to this day. On the other hand, it has left the state at the near total mercy of the global oil market.
In recent years, that has proven to be a bad bet. And it is the major reason Alaska finishes at the bottom of the CNBC America’s Top States for Business rankings in 2025.
With the price of Alaska North Slope crude oil down by double digits from a year ago, according to the Alaska Department of Revenue, Alaska has America’s worst economy as measured by the CNBC study. Economy is the heaviest-weighted category under this year’s methodology.
More coverage of the 2025 America’s Top States for Business
Alaska’s gross domestic product growth is in the bottom ten nationally. The state’s economy grew by just 1.5% last year, compared to 2.8% nationally.
More crucially, the state’s fiscal year 2026 budget is based on a forecast of $68 per barrel for crude oil, and it is unclear if that will hold. Alaska North Slope crude traded as low as $63.49 on May 5 before rebounding above $70 in recent weeks. State forecasters are counting on oil for around 70% of the state’s revenue over the next ten years, or nearly half the state’s operating budget. And some localities are far more dependent.
“When you look at the economic engine by default,” North Slope Borough Mayor Josiah Patkotak told CNBC last month, “That happens to be oil and gas by about 98% of our operating budget.”
$40 billion bet on natural gas as diversifier
For decades, Alaska has sought ways to diversify its economy, but it has had limited success. Proposals have involved alternative energy, agriculture, and the state’s tourism sector.
Alaska Governor Mike Dunleavy speaks during a news conference at his office in Anchorage, Alaska, U.S. March 22, 2022.
Yereth Rosen | Reuters
In 2023, Gov. Mike Dunleavy, a Republican, signed legislation to put Alaska into the carbon market, using the state’s vast public lands for carbon storage, and to generate carbon offset credits for high carbon emitters in other states. But the program is still in the study phase. A report to the legislature in January said the program is not expected to generate any revenue until at least 2027.
More recently, the Trump administration is backing a proposal to build a natural gas pipeline alongside the Trans-Alaska oil pipeline, allowing the U.S. to ship liquid natural gas — a byproduct of North Slope oil production — to Asia.
The idea has been around for years, but the price tag, estimated at around $40 billion, was impossible for the industry to swallow even when petroleum prices were high.
Now, however, administration officials think that trade tensions might change the economics.
“There [are] countries around the world looking to shrink their trade deficit with the United States, and of course, a very easy way to do that is to buy more American energy,” U.S. Energy Secretary Chris Wright told CNBC’s Brian Sullivan in Prudhoe Bay last month.
“If you get the commercial offtakers for the gas, financing is pretty straightforward,” Wright said.
If the project gets off the ground, it could provide a huge boost to Alaska’s economy, though it would still be at the mercy of commodity prices.
Lack of tech infrastructure, high costs
Alaska’s struggling economy is a major reason for its poor competitive performance, but it is not the only one.
The state ranks No. 49 in Infrastructure. While the state’s roads and bridges are in better shape than in many states in the Lower 48, its virtual infrastructure leaves much to be desired. Fewer than 2% of Alaskans have access to affordable broadband service, according to BroadbandNow Research. The data center boom has passed Alaska by thus far, with only four in the entire state.
Alaska is a notoriously expensive place to live, especially in the many remote parts of the state.
“When you’re paying 16 bucks a gallon for milk, we’ve got to figure out how to make sure that you can afford to buy the milk so you can live here. We’ve got to make sure you can afford to buy the gas so you can hunt here,” said Patkotak.
But one aspect of life is a bargain in Alaska. At a time of soaring homeowner premiums, online insurance marketplace Insurify projects Alaska homeowners insurance premiums will average $1,543 this year, the second lowest in the nation.
Join the conversation. Didn’t see your state mentioned? You can see where it ranked overall, and in all 10 categories of competitiveness, in the full rankings of the 2025 America’s Top States for Business.