A Blog by Jonathan Low

 

Sep 24, 2020

The Way Tesla Plans To Make Cheap Enough Batteries For $25,000 Car

Tesla's vertical integration - eg, it's control of most aspects of component manufacturing and final assembly - give it unprecedented power to reduce costs - by 56% in the case of car batteries - while improving performance. JL

Timothy Lee reports in ars technica:

Tesla's projected 56% reduction in battery costs can't be attributed to any single tech breakthrough. It's the cumulative result of improvements in battery chemistry, cell design, cell manufacturing, and the way batteries are incorporated into vehicles. Tesla designs and builds more of its own parts than most car companies. As a result, Tesla can look for cost savings and performance improvements at every stage of its supply chain. It can optimize the smallest details of individual components as well as with the overall design of a vehicle. It can optimize components for the specific needs of its products.
Tesla's business model depends on continuous improvements in the cost and energy density of batteries. When Tesla was founded in 2003, it was barely possible to build a battery-powered sports car with a six-figure price tag. Over the next 15 years, cheaper and more powerful batteries enabled Tesla to build roomier cars with longer ranges at lower prices.
Tesla expects that progress to continue—and maybe even accelerate—in the next few years. And it isn't waiting for other companies to come up with better battery designs. In recent years, Tesla has had a large team of engineers re-thinking every aspect of Tesla's batteries, from the chemistry inside the cells to the way the batteries are incorporated into vehicles.
At a much-touted Tuesday event, Tesla pulled back the curtain on a suite of improvements the company hopes to roll out in the next three years. In total, Tesla says that all of these innovations put together will enable a 56-percent reduction in the per-kWh cost of its batteries.
As a result, Elon Musk said, Tesla will be able to realize a longstanding dream: a truly affordable electric car.
"We're confident that long-term we can design and manufacture a compelling $25,000 electric vehicle," Musk said. He added that this would happen "probably about three years from now." Tesla didn't provide a name or other details about this planned low-cost Tesla.
This being Elon Musk, it's worth taking the timeline with a grain of salt. And as a forthcoming deep dive by Ars Technica's Scott Johnson will explain, some of Tesla's supposed breakthroughs—especially with respect to cell chemistry—are worth viewing with skepticism.
While a 56-percent reduction in battery costs over three years might seem like a big improvement—and it would be—it would represent a pace of progress only modestly faster than what the broader battery industry has enjoyed in recent years. For example, research firm BloombergNEF estimates that the market price of a 1 kWh battery pack fell from $1,160 in 2010 to $153 in 2019. That represents a nearly eight-fold decline in nine years—or a halving of battery costs every three years.
Still, Tesla is perhaps uniquely well-positioned to capitalize on the falling cost of batteries. It has a strong brand and unmatched infrastructure—including its SuperCharger network—to make electric vehicles mainstream. So if Tesla can deliver on the innovations it unveiled on Tuesday, it will have a bright future.

Tesla’s secret weapon: Vertical integration

Tesla
Tesla designs and builds more of its own parts than most car companies. As a result, Tesla can look for cost savings and performance improvements at every stage of its supply chain. It can optimize the smallest details of individual components as well as tinker with the overall design of a vehicle. And it can optimize components for the specific needs of its own products.
That attention to detail was evident in Tuesday's battery presentation. Tesla's projected 56-percent reduction in battery costs can't be attributed to any single technological breakthrough. Rather, it's the cumulative result of improvements in battery chemistry, cell design, cell manufacturing process, and the way batteries are incorporated into vehicles.
In the past, the bulk of Tesla's batteries were built around battery cells manufactured by Panasonic at the Gigafactory, the Nevada battery factory jointly developed by the two companies.
Tesla says that it plans to continue working with Panasonic and other cell suppliers, but it will need so many batteries in the coming years that the company will also start producing its own cells. Tesla estimates that it will produce 100GWh of its own cells in 2022 and a massive 3,000GWh by 2030. For comparison Tesla's website states that Tesla's main battery factory, the Gigafactory in Nevada, reached an annualized production rate of 20 GWh in mid-2018.
Tesla has ambitious plans for its new battery cells. They will use different battery chemistries, including one that eliminates the use of expensive cobalt in favor of nickel.
But Tesla also expects to reap double-digit cost savings from more prosaic improvements to its manufacturing process. Drew Baglino, Tesla's vice president for energy engineering, pointed to the bottling industry, where soft drink makers maximize throughput by keeping bottles constantly in motion, as a model.
"Together with our internal design team that makes this equipment and designs this equipment, we coupled thinking about how to make the best cell with thinking about how to make the best equipment so that we could accomplish the fastest parts-per-minute rates on all of these tools," said Baglino.
Baglino argued that vertical integration with the teams designing the machines is key to achieving higher throughput because "we don't have all these edge conditions between one piece of equipment and another. We can design the entire machine to be one machine and remove all these unnecessary steps." The result: a seven-fold improvement in cell manufacturing throughput.

Tabless cells and lithium mining

Tesla has developed vast facilities for "formation," the stage where a completed cell is charged for the first time and tested for quality. Each of these cabinets has slots to charge and test dozens of cells. Robots load and unload the cabinets.
Enlarge / Tesla has developed vast facilities for "formation," the stage where a completed cell is charged for the first time and tested for quality. Each of these cabinets has slots to charge and test dozens of cells. Robots load and unload the cabinets.
Tesla
For example, in a cylindrical battery, the cathode and anode are wound tightly around one another. In a conventional battery, a "tab" sticks out of each side of this roll—one connecting the coiled cathode sheet to one end of the cell, the other connecting the anode to the opposite end. Tesla says it has pioneered a new "tabless" internal structure that is not only less prone to overheating, but is also easier to manufacture. Eliminating the tabs means there's less need to start and stop the manufacturing process to make sure the tabs are properly positioned in each coil.
Tesla says it is even planning to get into the mining business. Currently, lithium mining overwhelmingly occurs outside the United States. But Musk says that's not because there's a shortage of lithium in the US. Indeed, he argued, lithium is abundant around the world; there is enough lithium in the ground in Nevada alone to replace the entire US vehicle fleet with battery-electric cars. So Tesla is planning to start its own lithium mining operation in Nevada with a new, Tesla-developed mining process.
"We actually bought rights to a lithium clay deposit in Nevada—over 10,000 acres," Musk said. "The nature of the mining is very environmentally sensitive in that we take a chunk of dirt out of the ground, remove the lithium, and then put the chunk of dirt back where it was."

The anode and cathode are long metal foils with a mixture of active ingredients—nickel, cobalt, lithium, and so forth—coated on one side. Traditionally, this coating is accomplished by mixing the ingredients into a liquid "slurry" that is then applied to the foil and then dried out. Doing this at scale requires massive ovens as well as complex machinery to recover and re-use the solvents.
Last year, Tesla bought a battery company called Maxwell that has developed a "dry" process for electrode coating. Its process dispenses with the slurry and instead adheres a dry powder mix directly to the foil. This eliminates several steps of the electrode manufacturing process and ends the use of toxic solvents. Tesla estimates that the switch to a dry process should reduce both the factory footprint and energy consumption of electrode coating by a factor of 10.
While the concept sounds simple—Tesla even showed a little video clip of someone doing it in a lab by squeezing the film and powder through a pair of rollers—it's tricky to match the quality of the wet manufacturing process. On Tuesday, Musk acknowledged that Maxwell's technology wasn't quite ready for mass production.
"We did acquire Maxwell a little over a year ago," Musk said. "It's certainly a good company and everything but the dry coating they had is sort of, I would call, proof of concept. Since the acquisition we've actually revved the machine that does dry coating four times. We're not saying this is like completely in the bag. There's still a lot of work to do.
"As you go from benchtop to lab to pilot to volume production, there are major issues you encounter at every level," Musk added. Tesla's prototype factory equipment, he said, "does work but with not a high yield."

Structural batteries

Tesla
Tesla is also going to tweak the design of its vehicles so they can incorporate batteries more compactly and at lower cost. Musk drew an analogy to modern airplanes that use the insides of their wings to store fuel.
Tesla vehicles have their batteries in a "skateboard" configuration near the bottom of the vehicle. In current vehicles, the skateboard consists of a top and bottom sheet with vertical supports connecting the two. The batteries take up the space in between these supports.
In the new design, by contrast, the battery cells themselves will be the structural support. "It effectively glues the cells to the top and bottom sheet" using a "structural adhesive," Musk said.
"This allows you to do shear transfer between the upper and lower sheet," Musk said. "Just like if you have like a Formula One craft or a racing boat and you have carbon fiber face sheets and aluminum honeycomb between them, this gives you incredible stiffness."
Eliminating the non-cell supports reduces cost and weight. It also allows the cells to be packed closer together and moves them farther from the edges of the vehicle. That, Musk argues, reduces the chance that they will be damaged—and potentially catch on fire—in the event of a side collision.
Tesla estimates that this new design will reduce the cost of the overall battery assembly by 7 percent.

Consumers and the planet are the real winners

Tesla Powerpack batteries during a launch event at Hornsdale Wind Farm on September 29, 2017 in Adelaide, Australia.
Enlarge / Tesla Powerpack batteries during a launch event at Hornsdale Wind Farm on September 29, 2017 in Adelaide, Australia.
Mark Brake/Getty Images
As I mentioned earlier, a 56-percent cost reduction in three years would hardly be unprecedented. Other companies are hard at work on their own battery innovations. The innovations Tesla unveiled on Tuesday might help Tesla leap ahead of the competition, but they also might just allow Tesla to keep up.
And fundamentally, what's driving the falling cost of batteries is the growing scale of battery production. The more batteries consumers buy, the more money companies can afford to invest in new cell designs, new manufacturing techniques, and squeezing every penny out of the manufacturing process. As the scale of battery manufacturing expands, companies can build bigger, higher-throughput factories, spreading their capital costs across more units.
We're still in the early stage of this virtuous cycle. Cheaper batteries make electric cars more affordable, which is helping to expand the electric car market. That, in turn, will boost the scale of battery manufacturing, which will enable further declines in battery prices.
These gains will be worth celebrating whether they are delivered by Tesla or another company. We're now pretty close to the point where battery-electric vehicles can be cheaper than equivalent gasoline-powered cars even before you factor in lower fuel and maintenance costs. When that point is reached, we can expect public adoption of electric vehicles to accelerate.
And cheap batteries will also be essential in transitioning the electric grid to renewable energy. Solar panels and windmills only generate electricity some of the time. Consumers expect power 24/7. Cheap batteries will enable the construction of utility-scale battery installations that allow most of our power to come from renewable sources.

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