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The energy giant Shell has joined a slew of strategic investors — including All Nippon Airways, Suncor Energy, Mitsui and British Airways — in funding LanzaJet, the company commercializing a process to convert alcohol into jet fuel.
A spin-off from LanzaTech, one of the last surviving climate tech startups from the first cleantech boom that’s still privately held, LanzaJet is taking a phased investment approach with its corporate backers, enabling them to invest additional capital as the company scales to larger production facilities.
Terms of the initial investment, or LanzaJet’s valuation after the commitment, were not disclosed.
LanzaJet claims that it can help the aviation industry reach net-zero emissions, something that would go a long way toward helping the world meet the emissions reductions targets set in the Paris Agreement.
“LanzaJet’s technology opens up a new and exciting pathway to produce SAF using an AtJ process and will help address the aviation sector’s urgent need for SAF. It demonstrates that the industry can move faster and deliver more when we all work together,” said Anna Mascolo, president, Shell Aviation, in a statement. “Provided industry, government and society collaborate on appropriate policy mechanisms and regulations to drive both supply and demand, aviation can achieve net-zero carbon emissions. The strategic fit with LanzaJet is exciting.”
LanzaJet is currently building an alcohol-to-jet fuel facility in Soperton, Georgia. Upon completion it would be the first commercial-scale plant for sustainable synthetic jet fuel, with a capacity of 10 million gallons per year.
The fuel is made by using ethanol inputs — something that Shell is very familiar with. It’s also something that the oil giant has in ready supply. Through the Raízen joint venture in Brazil, Shell has been producing bio-ethanol for more than 10 years.
The company expects that its sustainable fuel will be mixed with conventional fossil jet fuel to power airplanes in a lower carbon intensity way. Roughly 90% of the company’s production output will be aviation fuel, while the remaining 10% will be renewable diesel, the company said.
LanzaJet’s SAF is approved to be blended up to 50% with fossil jet fuel, the maximum allowed by ASTM, and is a drop-in fuel that requires no modifications to engines, aircraft and infrastructure. Additionally, LanzaJet’s SAF delivers more than a 70% reduction in greenhouse gas emissions on a lifecycle basis, compared to conventional fossil jet fuel. The versatility in ethanol, and a focus on low carbon, waste-based and nonfood/nonfeed sources, along with ethanol’s global availability, make LanzaJet’s technology a relevant and enduring solution for SAF.
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The Swiss-based, venture capital-backed, direct air capture technology developer Climeworks is partnering with a joint venture between the government of Norway and massive European energy companies to map the pathway for a business that could provide not only the direct capture of carbon dioxide emissions from air, but the underground sequestration and storage of those emissions.
The deal could pave the way for a new business that would offer carbon capture and sequestration services to commercial enterprises around the world, if the joint venture between Climeworks and the newly formed Northern Lights company is successful. It would mean the realization of a full-chain carbon dioxide removal service that the two companies called a necessary component of the efforts to reverse global climate change.
Northern Lights was incorporated in March as a joint venture between Equinor, Shell and Total to provide processing, transportation and underground sequestration services for captured carbon dioxide emissions. The business is one of the lynchpins in the Norwegian government’s efforts to capture and store carbon emissions safely underground under a plan called The Longship Project.
“There is growing awareness of the need to build capacity to remove CO2 from the atmosphere to achieve net zero by 2050. We are enthusiastic about this collaboration with Climeworks. Combined with safe and permanent storage, direct air capture has the potential to get the carbon cycle back in balance,” said Børre Jacobsen, the managing director of Northern Lights, in a statement.
The two companies are hoping to prove that Northern Lights facilities combined with Climeworks direct air capture technologies can prove to be a part of a push toward negative emissions technologies that allow companies in non-industrial sectors to become either carbon neutral or carbon negative.
There are a number of caveats to the project, which reveal both the potential promise and pitfalls of direct air capture initiatives and sequestration and monitoring projects.
The first issue is the need to set a global price for carbon dioxide emissions that would make the projects economically viable.
“There is one legislation worldwide that is paying for direct air capture of CO2 and that is the Low Carbon Fuel Standard in California,” said Christoph Gelbad, the co-chief executive and co-founder of Climeworks. “It’s paying up to $200 per ton… this price range is the price range that will be needed to make this full chain, really going from the atmosphere to direct air capture to underground storage and monitoring. That will be the price range needed to build up the infrastructure and finance it.”
A breakdown of the costs associated with different carbon capture technologies. Image Credit: Climeworks
That price is on the highest end of any that world leaders have discussed as a potential cost for carbon-emitting industries (and it’s well below the price that China has set for carbon emissions, which is important to note, given the scale of China’s contribution to the production of greenhouse gases that cause global warming).
Beyond any pricing concerns associated with making these direct air carbon capture and storage solutions viable, there’s the scale at which these projects would need to be developed to make a real dent in global emissions.
Here again, Gelbad offers a clear-eyed assessment of his company’s capabilities and the size of the problem.
“The numbers given by science 10 to 20 billion tons of CO2 for removal,” Gelbad said. “Direct Air Capture will need to grow at a gigaton scale. This [potential] site will be in the megaton scale. [But] this is the range where our journey together with Northern Lights definitely could go. We see it going into the megaton ranges.”
Climeworks uses renewable energy and waste heat to power modular collectors that can be stacked into machines at any size. The only limit to the company’s ability to capture carbon dioxide is the availability of power, according to Gelbad.
The company already has a collaboration with an Icelandic company called Carbfix, where the Climeworks technology is used to capture carbon dioxide and store it in mineralized basalt. The company said in a statement that it’s looking globally for other opportunities for permanent carbon dioxide storage and that the Northern Lights solution of deep geological sequestration in an offshore saline aquifer under the North Sea represents an ideal alternative site.
To develop its technology, Climeworks has raised more than $150 million from investors, including the Swiss lender Zuercher Kantonalbank.
For its part, Northern Lights is already planning on capturing carbon dioxide from industrial point sources in the Oslo region, which will then be shipped to an onshore terminal on the Norwegian coast. A facility there will transport the liquefied carbon dioxide by pipeline to an offshore storage location 1.62 miles below the seabed in the North Sea.
“Northern Lights is offering carbon capture and sequestration as a service. From the idea of doing this project and from the early days of working with the ministry … my biggest surprise was the level of interest in [carbon capture and sequestration] among emitters in Europe,” said Jacobsen. “This awareness. This interest. And the need to find a solution is accelerating. We are talking about what are the possibilities and what are the solutions. Northern Lights offers a great part of the value chain.”
Some companies are already interested in becoming early customers for the project, Jacobsen said. “We have a number of MOUs and confidentiality agreements with customers and letters of support. Big interest in discussing with us. The key will be that we have to bring conversations into agreements so that we can bring this business forward.”
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Last week the mobile charging battery company SparkCharge announced a partnership agreement with AllState that expands the company’s reach into vehicle services, driving the company further down the road toward its goal of making electric vehicle charging the next gig economy job.
The company, which has developed, designed and is commercializing a mobile vehicle charger, is also in the process of closing a $5 million round led by Shark Tank investor Mark Cuban and others as it brings its new mobile charging device, called the Roadie, to market.
SparkCharge’s 120 kilowatt fast charger can be delivered on-demand through a network of partners that now includes AllState and the Durham, North Carolina vehicle services startup, Spiffy. Customers can choose to top up with between 50 miles and 100 miles of charge using the Roadie, which is the lynchpin in a broader charging network that SparkCharge’s founder, Joshua Aviv, envisions.
“You can say I want a charge at this point in time at this location and this much range,” Aviv said. “You pay and have the charge delivered all on one app.”
So far, the agreement between AllState and SparkCharge covers four cities: Chicago, Los Angeles, San Francisco and San Diego, and the insurance and roadside assistance provider has ordered roughly 20 portable chargers.
Working through companies like Spiffy and AllState is one way to get to market, but SparkCharge’s chief executive thinks that independent workers could start up their own businesses offering on-demand charging to customers.
On-demand charges cost roughly 50 cents per mile and a customer can get a significant enough charge for as little as $10, according to Aviv.
“We’re basically creating a whole new [charging] network,” said Aviv. “This isn’t a network meant to be a stopgap. It’s a network that’s always on, always available and better and faster than [traditional chargers]… we don’t need permits, we don’t need construction. With our unit, you take it out of the box, you plug it into the car, you push a button and begin charging. With us, every parking spot, every location — that’s now a charging station. That’s a much better network than the legacy.”
Folks who wanted to offer the charging services would pay roughly $450 per month for the equipment and that would give them the battery and the equipment they would need to start their own on-demand EV charging business.
“It’s a business designed to allow people to service EV owners,” said Aviv.
The Somerville, Massachusetts-based company was born from Aviv’s own fascination and frustration with the current state of electric vehicle charging infrastructure.
As The Wall Street Journal noted, the lack of charging infrastructure is one of the major obstacles that electric vehicles have to overcome for them to achieve mass adoption.
In a survey of 3,500 electric vehicle drivers, cited by the Journal, which was conducted in September and October of last year by the advocacy group Plug In America, over half of respondents reported having problems with public charging. Those problems are worse for drivers who don’t own Teslas.
Whatever else may be true about the EV that Elon built (along with thousands of workers and a slew of additional innovators and company founders), Tesla’s emphasis on having mostly adequate charging infrastructure to support its customers has paid huge dividends. And other carmakers, retailers and standalone charging service providers are only beginning to catch up.
Companies ranging from oil majors like Shell to automakers like Volkswagen, who spent $2 billion to build out an electric vehicle charging network as part of the settlement from its diesel emissions chicanery, have networks built out or in the pipeline.
For Aviv, who has owned an electric vehicle since 2013 when he bought a Chevrolet Volt, the problem was clear. He began working on the company in 2014 while still a student at Syracuse University. A professor and advisor at the university had previously served on the board of the Environmental Protection Agency and was a huge proponent of electric vehicles.
After college Aviv continued to work on the business developing a portable charging station and then creating a platform for distribution and sales and a network of service providers on top of it. That’s how SparkCharge was built.
In the early days, the company received assistance from groups like the Los Angeles Clean Technology Incubator and investors like Techstars Boston, Techstars, Steve Case’s Rise of the Rest fund and his Revolution investment firm, PEAK6 Investments and the Buffalo, New York-based accelerator 46North, along with investors like Cuban.
“I saw that the current [charging] infrastructure that we have has a lot of flaws,” Aviv said. They include the downtime between charging infrastructure upkeep, the time it takes to grow the charging network and the lack of maintenance and support for chargers.
“There’s a huge push to move these chargers,” he said. “You don’t want these EV drivers to drive around a city with no guarantee of infrastructure. It’s an interesting tug of war that’s going on that we’re going to see unfold and consumers might be more persuaded to drive an EV [with SparkCharge] because not only can you deliver range but you can request it on demand.”
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LanzaJet, the renewable jet fuel startup spun out from the longtime renewable and synthetic fuel manufacturer LanzaTech, has inked a supply agreement with British Airways to supply the company with at least 7,500 tons of fuel additive per year.
The deal marks the second agreement between the U.K.-based airline and a renewable jet fuels manufacturer following an August 2019 agreement with the British company Velocys. It’s also LanzaJet’s second offtake agreement. The company announced itself with a partnership between the renewable fuels manufacturer and the Japanese airline ANA.
Through the deal, British Airways will invest an undisclosed amount in LanzaJet’s first commercial scale facility in Georgia. The fuel will begin powering flights by the end of 2022, the companies said.
It’s part of a broader expansion effort that could see LanzaJet establish a commercial facility for the U.K. airline in its home country in the coming years.
Back in the U.S. the plan is to begin construction on the Georgia facility later this year, which will convert ethanol into a jet fuel additive using a chemical process.
Fuel from the plant will reduce the overall greenhouse emissions by 70% versus traditional jet fuel. It’s the equivalent of taking almost 27,000 gasoline or diesel-powered cars off the road each year, according to the company.
The deal is the culmination of years of research and development work between LanzaJet’s parent company, LanzaTech, and Department of Energy’s Pacific Northwest National Laboratory.
Spun off in June 2020, LanzaJet was financed by an investment group including parent company LanzaTech, Mitsui, and Suncor Energy. British Airways now joins the two other strategic investors as LanzaJet eyes an ambitious scale-up program through 2025. The company plans to launch four large-scale plants producing a pipeline of renewable fuels.
“Low-cost, sustainable fuel options are critical for the future of the aviation sector and the LanzaJet process offers the most flexible feedstock solution at scale, recycling wastes and residues into SAF that allows us to keep fossil jet fuel in the ground. British Airways has long been a champion of waste to fuels pathways especially with the UK Government,” said Jimmy Samartzis, the chief executive of LanzaJet. “With the right support for waste-based fuels, the UK would be an ideal location for commercial scale LanzaJet plants. We look forward to continuing the dialogue with BA and the UK Government in making this a reality, and to continuing our support of bringing the Prime Minister’s Jet Zero vision to life.”
The LanzaJet fuel is certified for commercial flight up to 50% blend with conventional kerosene. “Considering the aviation market is 90 billion gallons of jet fuel a year, having 50% or 45 billion of production capacity and reaching that max blend level will be a great problem to have,” said LanzaTech chief executive Jennifer Holmgren in an email.
LanzaJet’s manufacturing facility in Georgia is designed to produce zero-waste fuels, according to Holmgren, and British Airways will receive 7,500 tons of sustainable aviation fuel from LanzaJet’s biorefinery each year for the next five years.
The partnership is between British Airways, Hangar 51 (International Airlines Group’s accelerator) and others.
In addition to its biofuel work, British Airways is also working with companies like ZeroAvia, the hydrogen fuels company that also received backing from Amazon, Shell and Breakthrough Energy Ventures.
“For the last 100 years we have connected Britain with the world and the world with Britain, and to ensure our success for the next 100, we must do this sustainably,” said British Airways chief executive Sean Doyle.
“Progressing the development and commercial deployment of sustainable aviation fuel is crucial to decarbonising the aviation industry and this partnership with LanzaJet shows the progress British Airways is making as we continue on our journey to net zero.”
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Royal Dutch Shell, the energy giant known for its fossil fuel production and hundreds of Shell gas stations, is creeping into the electric vehicle-power business.
The company’s first DC fast charger from its newly acquired company Greenlots launched Monday at a Shell gas station in Singapore. Greenlots, an EV charging startup acquired by Shell in January, installed the charger. This is the first of 10 DC fast chargers that Greenlots plans to bring to Shell service stations in Singapore over the next several months.
The decision to target Singapore is part of Greenlots’ broader strategy to provide EV charging solutions across all applications throughout Asia and North America, the company said. Both Shell and Greenlots have a presence in Singapore. Greenlots, which is based in Los Angeles, was founded in Singapore; and Shell is one of Singapore’s largest foreign investors.
Singapore has been promoting the use of electric vehicles, particularly for car-sharing and ride-hailing platforms. The island city-state has been building up its EV infrastructure to meet anticipated demand as ride-hailing drivers and commercial fleets switch to electric vehicles.
Greenlots was backed by Energy Impact Partners, a cleantech investment firm, before it was acquired by Shell. The company, which combines its management software with the EV charging hardware, has landed some significant customers in recent years, notably Volkswagen. Greenlots is the sole software provider to Electrify America, the entity set up by Volkswagen as part of its settlement with U.S. regulators over its diesel emissions cheating scandal.
Clarification: Shell has other EV chargers. These are the first through its newly acquired company Greenlots.
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Automakers are laying the groundwork for a future in which electric cars are omnipresent – and at least as common a sight on roadways as traditional gas-powered vehicles. Last month, a group of car OEMs including Ford, BMW, Daimler, and Volkswagen Group created a new joint-venture called ‘Ionity’ to build out a charing network, starting with a series of fast-charging stations… Read More
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Reports claim that point of sale startup Revel Systems is in early acquisition negotiations with IBM, and while both Revel and IBM declined to comment when we asked about it, a deal that the startup announced today could provide an interesting clue for why a company like Big Blue might be interested in buying it. Today Revel announced a deal with Shell, the oil and gas giant, to implement… Read More
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