Posted on 01/18/2018 12:50:56 PM PST by Red Badger
Former Aston Martin designer to challenge Tesla with claims of dramatic breakthrough
Henrik Fisker at CES in Las Vegas, says the solid-state batteries have the potential to be much cheaper to make than lithium-ion batteries.
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In an announcement designed, surely, to take some of the wind from Teslas sails, Henrik Fisker is claiming to have made a dramatic breakthrough in battery technology.
Fisker, who left a job as chief of design at Aston Martin to set up his own eponymous car company, says that hes filed patents on a new design of so-called solid state batteries, which can theoretically be charged far faster, and have greater energy capacity than the current state-of-the-art lithium-ion batteries.
So, with giants such as Toyota and Volkswagen pursuing the same goal, how has a small, startup car maker managed to make such a breakthrough? Everyone has gone down a road of working on what we call thin-film sheet batteries Fisker told The Irish Times. One of the early scientists who worked on these was Dr Fabio Albano.
Albano used to work with a company called Sakti3, which seemed to have taken a lead in battery development, and had been bought, but then dropped, by British vacuum cleaner maker, and burgeoning car builder, Dyson (Dyson, having announced its intention to build an electric car of its own design, and having put its faith in solid-state battery designs by Sakti3, has this week just parted company with Ann Marie Sastry, co-founder of Sakti3 and a renowned expert in solid-state batteries).
Having left Sakti3, Albano decided to bring his next development to Fisker. So, the surface area of a thin-film battery is not enough for it to generate the power for a car says Fisker. The breakthrough that Fabio brought to me, just over a year ago, was a development of the solid-state battery, and he said that he wanted to bring this battery into Fisker, and he really wanted to get it into a vehicle. He believed that he was close to a breakthrough. Under wraps
Albanos design is, in its details, still under wraps. The broad-stroke picture though is a battery with what is being called a 3D electrode design, capable of holding 2.5-times the energy and charge of a conventional lithium-ion battery, and able to draw in a charge at a much faster rate, rather like a supercapacitor.
This breakthrough marks the beginning of a new era in solid-state materials and manufacturing technologies, said Dr Albano. We are addressing all of the hurdles that solid-state batteries have encountered on the path to commercialisation, such as performance in cold temperatures; the use of low cost and scalable manufacturing methods; and the ability to form bulk solid-state electrodes with significant thickness and high active material loadings. We are excited to build on this foundation and move the needle in energy storage.
The real kicker, according to Fisker, is that these solid-state batteries have the potential to be much cheaper to make than lithium-ion batteries, at least if projections on material costs can be realised. Other batteries have claimed different things, but theyre all expensive. The unique thing about our battery Fisker told The Irish Times, is that the solvent that we use to build the battery is the cheapest one you can get water. That makes this battery extremely cheap and easy to produce, it doesnt need to be built in a clean room, and you can produce football-fields of it very quickly. We estimate that it will be a third of the price of a lithium-ion battery by 2020.
Fisker is not, as Mr Fisker himself points out, a battery maker, but he is already working with the likes of LG Chem and other battery-producing giants on his forthcoming Fisker E-Motion electric car, unveiled at this weeks Consumer Electronics Show in Las Vegas. Touting a 650km one-charge range and around the same size as a BMW 5 Series, the eMotion is packing a 780hp powertrain, using a lithium-ion battery pack.
It uses multiple electric motors for four-wheel drive, and Fisker claims that, by using complex LiDar sensors, it will be the first truly Level Four hands-off autonomous car on the market.
Thats quite some claim, considering that even Volvo (usually considered to be further along than most car makers) recently backed off from a plan to put Level Four cars into beta testing with selected Swedish families.
According to Fisker, though. the eMotion comes equipped with our advanced autonomous driving system with the ability to conquer everything from start and stop traffic to sailing in the fast lane. The eMotions autonomous system is composed of multiple LIDAR sensors throughout the body, ultrasonic sensors and cameras with the capability of reacting quickly through the short-range and long range radar. Finally, a car where you can truly sit back, relax and enjoy the ride.
The whole of the eMotions structure is made from carbon-fibre, the lightness of which doubtless helps with the cars lanky claimed range figure. All four doors open up and out on unique butterfly hinges and can be controlled from a smartphone app.
The cabin features a series of enormous touchscreens for the instruments and infotainment, and Fisker is aiming at the chauffeur drive market with the option of a 27-inch, curved screen for the rear seats. Those alloy wheels, also available in carbon-fibre, are a whopping 24-inches in diameter by the way. Better keep away from kerbs.
Prices? Well, Fisker has to actually, physically get it on sale first, something that even Tesla, with all its resources and investment, has still struggled to do with its Model 3. A price of USD$129,000 has been spoken of at CES, which would probably translate to around 150,000 landed in Ireland, with sales projected to start from mid-2019. Wireless system
Fisker is also working on a new wireless inductive charging system, because as he puts it himself to get that kind of long-range charge into the battery in one minute, you would need a copper cable that would be the thickness of an elephants leg. No-one would be able to use it. So instead, you just position the car over a pad mounted in the ground. You just park over it, it rises a little to match with a pad under the car, and you and take your one-minute charge. Fisker sees existing petrol stations as being the ideal locations for these ultra-fast wireless chargers. Were going to 800-volts, so now you need much bigger cables. So weve developed this in-ground pad system, which you dont even need to be super-precise with parking over. Its even better than filling your car with gas, because you wont even need to get out of the car. Even the payments are wireless. So were also talking to some big infrastructure groups, and oil companies about using their locations. They already have strategic locations so it makes sense, and its an obvious thing for a gas station owner to replace the loss of oil-based sales by selling electricity.
Clearly, one has to take such far-reaching claims and tales of ultra-fast charging with a major pinch of sceptical salt. The worlds largest car makers are all chasing the same tech, and their research and development budgets would dwarf Fiskers many times over. But the man himself says that the biggest changes often come from just one person. Incredible idea
It may sound amazing, said Fisker, but at the end of the day, most inventions come down to one incredible person having an incredible idea. I have never heard of inventions that come from teams of 1,000 people. They may be good at executing or manufacturing, but not at inventions. So inventions come from a single person. And its not just that we want to use the battery for ourselves, we want other car makers to use it, so that we can reach high-volume manufacturing goals.
That high volume includes, potentially, a mass-market car for Fisker, or at least one thats pitched at a more affordable price point than the luxury E-Motion, and he wants to team up with an existing major car maker to build it. We want electric vehicles to become mass-market. We are already planning a mass-market car. Until we get this technology, I dont see the world going totally electric, because no-one wants to sit there for half an hour charging their car. Or theyre going to forget to charge the car, and theyre going to be late for a meeting or something. But theres one area where you just cant beat the big car makers, and thats mass-manufacturing, and you can kind of see that with another electric car maker. So people underestimate how complicated a car is to make, and the big car companies are these big, well-oiled machines for making cars. Thats very hard to replicate for a startup. So we are looking at, we dont want to do that buy ourselves, and I believe that its the right time to collaborate in the electric car market, because we all need to build up the volume, because thats the only way to bring the prices down.
Thoughts?........................
650km = 404 miles
Free Republic’s never ending fascination with the e-Car bump. Get a golf cart and fugitabowtit.
how many jiggawatts is required and at what frequency, kenneth?
Color me skeptical.
It's stupid. The average household has less than a 100 amp service. Where are you going to get 30 K Watt hours in a minute?
Great news if it works out. Storage seems the one big hurdle still.
Haven’t super capacitors been around for quite a while, and isn’t the problem with all of them catastrophic energy release if they are damaged?
I think this is gullible journalists taken in by technobabble.
Battery exaggerations aside, Tesla is soon to be swamped with head-on competitors that are better capitalized, have more experience, and aren’t so dependent on government.
China is going big into the electric vehicle market too.
Ever see a capacitor pop? Wonder what a supper cap pop would look like? Maybe like a power source in scifi movies or a dilythium crystal.
3 jiggawatts at a jigga hertz.................
The article says nothing about the storage capacity of whatever type battery/capacitor is used in the car.
One of the current Teslas claims a battery capacity of 200 kwh.
Charging a 200 kwh battery/capacitor in one minute requires a power of 60 x 200 kw.
12 megawatts.
Nominally, the power consumed by TWELVE THOUSAND houses.
Where’s the generating capacity for that going to come from?
A more skeptical view of Fisker claims:
-—Thoughts?——
Fisker cuts through the battery hype.
My thought is that the good minds are approaching the electric car problem bassackwards. The big seller electric car will be for low mile journeys within cities. The market will be commuting and trips to the grocery store.
Rather than the top of the line BMW or Lexus, the model should be the golf cart or the fork lift. Both are extremely successful vehicles, especially the electric forklifts used throughout American Industry.
Yale should be developing the car
Basic utility should be expanded until the price exceeds what is needed. At that point the manufacturers should back off the luxury and provide what is needed.
Sorry. But every entity in the universe must obey the laws of physics. Such a “supercharger” must transfer the amount of energy needed to move 3,000 pounds 300 miles. To do so would require a power withdrawal from the grid and storage in a battery of some sort. Please explain how such a feat is physically possible in under two minutes. It’s not.
Wireless transmission of power like Tesla envisioned.
And your garage will explode in 30 seconds.
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