Arrival (ARVL) successfully builds its first electric Van using novel Microfactory model
EV startup Arrival has completed a huge step in bringing its first commercial EV into production, particularly in the way its flagship Van is being assembled. Arrival has successfully built its first production-verification Van using its Microfactory in Bicester, UK, marking the start of a new streamlined assembly that could eventually shift how and where EVs are built in the future.
Arrival ($ARVL) is an EV start-up focused on delivering urban-centric mobility, which originally began with plans for an all-electric passenger Bus, a delivery Van, and a rideshare-centric Arrival Car designed alongside Uber.
Although the company currently has headquarters in both London and Charlotte, North Carolina, all of its R&D and design currently takes place in Bicester, where Arrival Van production will also begin.
Rather than pour hundreds of millions of dollars into the construction of mega production facilities, Arrival has taken the opposite approach. In what it calls its “Microfactory,” Arrival takes existing industrial facilities and installs its own assembly cells that can be quickly and efficiently implemented.
This strategy removes the need for any special foundations, pits for painting, or other assembly processes. Individual assembly cells are instead, bolted directly into the concrete floor. Each cell includes 3-4 off the shelf robots in addition to all the necessary equipment to guide parts around the facility, like autonomous robots for instance.
Since going public via SPAC merger in March of 2021, the start-up’s stock has stumbled, leading to an announcement this past July that it would be reorganizing its business to focus on Arrival Van production. As a result, Arrival put a complete halt to Arrival Bus and Car development for the time being.
Although Arrival has been making progress in building out production-ready Vans, none had been built in a Microfactory… until now.
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Some of the robotic cells in Arrival’s Bicester Microfactory / Source: Arrival -
Arrival shows proof of concept for Van Microfactory model
The startup shared its latest feat in bringing its last-mile delivery Van to production in a press release today, alongside a status update for Arrival as a whole. The Van seen above is the first to be assembled in Arrival’s initial software-defined Microfactory using in-house technologies, composite materials, autonomous mobile robots, and other in-house components.
By successfully rolling off the Microfactory assembly line in the UK, this latest Van shows proof of concept for Arrival’s unique production approach and moves its creators one step closer to scaled EV production and initial deliveries. Arrival founder and CEO Denis Sverdlov spoke to the company’s progress so far:
Today is an important day for Arrival. This is the first time a vehicle has ever been built in our Microfactory, using a new method that does not use a traditional assembly line. Although we have not yet achieved serial production, we are focused on making it happen. We will continue to produce vehicles in our Microfactory in order to master at-scale production. It has been more difficult than we had initially imagined, and I thank the team for the immense amount of effort, technology, innovative breakthroughs, and problem solving.
While this remains a huge accomplishment for the EV startup, Arrival’s upcoming Van builds will not be reaching customers just yet… at least not this year. The company states that all Vans built at the UK Microfactory will be used for continued testing, validation, and quality control.
As for official start of scaled production and delivery timelines, Arrival says we will learn more during its Q3 earnings report taking place November 8. Perhaps we will also get an update on its Van production progress in the US as well, now that one Microfactory is successfully up and running. We will report back when we learn more in November.
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A view of offshore oil and gas platform Esther in the Pacific Ocean on January 5, 2025 in Seal Beach, California.
Mario Tama | Getty Images
Oil prices jumped on Friday as the U.S. Treasury Department announced sweeping sanctions against Russia’s oil industry.
Brent gained $1.92, or 2.5%, to $78.84 per barrel by 11:12 a.m. ET, while U.S. crude oil advanced $1.89, or 2.56%, to $75.81 per barrel. Brent broke $80 per barrel for the first time since October earlier in day, hitting a session high of $80.75.
The sanctions target Russian oil companies Gazprom Neft and Surgutneftegas and their subsidiaries, more than 180 tankers, and more than a dozen Russian energy officials and executives. The sanctioned executives include Gazprom Neft CEO Aleksandr Valeryevich Dyukov.
The sanctioned vessels are mostly oil tankers that are part of Russia’s “shadow fleet” that has dodged existing sanctions on the country’s energy exports, according to the Treasury Department.
“The United States is taking sweeping action against Russia’s key source of revenue for funding its brutal and illegal war against Ukraine,” Treasury Secretary Janet Yellen said in a statement.
Brent crude futures, 1 year
“With today’s actions, we are ratcheting up the sanctions risk associated with Russia’s oil trade, including shipping and financial facilitation in support of Russia’s oil exports,” Yellen said.
The perception in the oil market is Indian and Chinese refiners that have imported Russian oil will have to scramble for barrels from the Middle East, said Bob Yawger, executive director of energy futures at Mizuho Securities, in a note to clients Friday.
The Biden administration has sought to ratchet up pressure on Russia and dispense aid to Ukraine before President-elect Donald Trump takes office.
“The Biden administration opted for more robust energy sanctions, which caught the oil market especially complacent about sanctions risks,” said Bob McNally, president of Rapidan Energy Group.
“Therefore, we expect today’s material risk premium in Brent to stick pending signals from the Trump team as to whether they will continue these sanctions,” McNally said.
Hydrostor’s GEM A-CAES has received a conditional loan guarantee of up to $1.76 billion from the US Department of Energy (DOE) to build the Willow Rock Energy Storage Center, a cutting-edge compressed air energy storage (CAES) system, in Eastern Kern County, California.
If everything goes as planned, Willow Rock will bring 500 megawatts (MW) and 4,000 megawatt-hours (MWh) of long-duration energy storage (LDES) to the southern California power grid.
This system will lower energy costs, improve grid reliability during peak demand, and expand the rollout of renewable energy into the grid. Here’s how it works and why it’s unique.
How compressed air energy storage works
CAES technology is all about storing energy for later use, especially when the sun isn’t shining or the wind isn’t blowing. Here’s how it works:
- Storing energy: The system takes surplus energy (often from renewable sources like solar or wind) and uses it to compress air, which is stored in underground caverns.
- Releasing energy: When the grid needs power, the compressed air is released, passing through a turbine to generate electricity. Willow Rock will be able to dispatch stored energy at full power for over eight-hour periods.
Unlike conventional batteries, CAES can scale up based on the size of the storage cavern and doesn’t rely on scarce critical materials. It’s durable, too –systems like Willow Rock are designed to last over 50 years.
Why advanced CAES is different
Traditional CAES systems face two big challenges: wasted heat and inconsistent power output. Willow Rock’s advanced compressed air energy storage system (A-CAES) technology solves these problems:
- Thermal energy capture: Conventional CAES loses around 50% of energy during the air compression process. Willow Rock pairs a proprietary thermal storage system with this process, so it captures, stores, and reuses heat from the compression cycle.
- Constant Pressure: Traditional systems lose efficiency as underground air pressure drops. Willow Rock maintains consistent pressure by using water from an above-ground reservoir. As a bonus, the facility will be a net producer of fresh water, as water condensed during the compression process will be captured and reused.
This innovative design means A-CAES systems can be installed in a greater variety of underground conditions – an estimated 80% of US geology could support similar systems, opening the door for wide deployment.
Willow Rock will create up to 700 construction jobs at its peak, and 40 full-time operations roles will follow. These positions require skills similar to those used in the oil and gas industry, making it a natural fit for Kern County, a region with roots in fossil fuel production.
GEM A-CAES is a subsidiary of Hydrostor USA Holdings, a subsidiary of Hydrostor of Canada.
Read more: The world’s highest solar + storage project is online in Tibet
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Chinese EV automaker Build Your Dreams (BYD) has unveiled its ATTO 2 compact SUV to the European public. The launch, which took place at the Brussels Motor Show, kicks off BYD’s next EV entry into European and UK markets. The BYD ATTO 2 is smaller and more affordable than its SUV siblings, with a decent range to boot, perfect for European roads.
The ATTO 2 is a rebranded version of the Chinese EV automaker BYD’s Yuan Up – an ultra-affordable compact SUV that debuted in China in February 2024. BYD may not be bringing “Yuan” branded EVs over to new markets in Europe, but that lineup continues to grow each month.
BYD currently sells four all-electric models in the UK and seven in Europe, including the ATTO 3 SUV. Today, BYD debuted a rebranded version of the Yuan Up called the ATTO 2, which will go on sale to customers in the UK and Europe next month.
BYD unveils ATTO 2 in Brussels, sales begin in February
The Brussels Motor Show recently kicked off as the first major automotive expo in Europe in 2025, and BYD showed up with a new affordable BEV option to complement the ATTO 3. Per BYD executive vice president Stella Li:
We’re excited to start 2025 with another important model for our plans in Europe. The B-segment SUV class is incredibly popular here, and with the ATTO 2, we have an agile and versatile offering that will appeal to that large potential customer base. It takes all of BYD’s strengths in batteries, electric motors and Cell-to-Body construction and combines them in a compact package that brings new intelligent technologies to the urban SUV class.
The ATTO 2 is 4,310mm long, 1,830mm wide, and 1,675mm tall—145mm shorter and 45mm slimmer than its ATTO 3 sibling. Despite its compact size, the ATTO 2 offers up to 1,430 liters of cargo capacity with its rear seat down.
The ATTO 2 also sits atop BYD’s e-Platform 3.0, the first of the brand’s compact SUVs to utilize Cell-to-Body (CTB) construction, which integrates the battery completely into the vehicle chassis—this design results in optimized space and overall increased vehicle rigidity.
Speaking of batteries, the EU and UK customers who opt for an ATTO 2 can experience BYD’s proprietary Blade Batteries, which integrates LFP cells directly instead of fitting them into multiple modules. BYD says customers can choose between two battery sizes in their ATTO 2 order. At launch, a standard range edition will utilize a 45.1 kWh Blade Battery, delivering a (WLTP) 312 km (194 miles) range.
However, BYD said a larger-battery version of the ATTO 2 will arrive in the coming months and offer drivers greater range. The automaker is not yet sharing individual pricing for the ATTO 2 in the UK or Europe. Still, a representative for the company said the compact SUV is expected to land between the BYD Dolphin and ATTO 3 BEVs, which in the UK cost 26,140 GBP ($32,157) and 37,140 GBP ($45,689) respectively.
ATTO 2 sales are expected to begin in February.
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