The Replacement For the Battery?

jackd writes "Great article in Technology Review, bordering on 'too good to be true,' about a small company in Texas that is developing the replacement for the electrochemical battery. The device is a kind of hybrid battery-ultracapacitor based on barium-titanate powders. Quoting: 'The company boldly claims that its system... will dramatically outperform the best lithium-ion batteries on the market in terms of energy density, price, charge time, and safety... The implications are enormous and, for many, unbelievable. Such a breakthrough has the potential to radically transform a transportation sector already flirting with an electric renaissance.'"

Why are they even trying to do cars?

[sinij]

Leave cars to companies that specialize in cars, like Honda or Ford, that can apply your batteries to already working hybrid or electric cars with manufacturing, distribution and sales in place. If you have amazing [anything] technology - focus on that technology instead of re-inventing its applications.

Re:

[ArcherB]

Why are they even trying to do cars?

Because companies like Honda and Ford won't produce a viable electric car on their own!

Re:

[Planesdragon]

Because companies like Honda and Ford won't produce a viable electric car on their own!

Yep. GM's essentially just waiting for the battery. Honda and Ford will follow suit, or try and get out in front. Either way, once the battery is avaliable, they will put it in their cars.

Re:

[Original Replica]

Exactly, First make a regular car starter battery. There is already an infrastructure based around 12v batteries: cars, boats, many off-the-grid homes use these or banks of these heavy, limited lifespan lead/acid things that would provide an eager market to replace with a lighter/longerlasting/fastercharging battery.

Re:

[Usquebaugh]

Nope,

my car battery is cheap, lasts longer than 5 years and just works.

My laptop battery however is a piece of expensive useless junk.

Fix broken things not things that are already fixed.

Re:

[arielCo]

Your car battery, if it were made large enough to hold the same amount of energy as your 50-liter tank, would weigh about 17 tons (http://en.wikipedia.org/wiki/Energy_density [wikipedia.org]):

50 l * 0.74 kg/l (gas) * 46.9 MJ/kg (gas) / 0.1 MJ/kg (Pb batt) = 17353 kg

For your laptop's battery, that figure improves by a factor somewhere around 6.

Re:Why are they even trying to do cars?

[Jeffrey Baker]

That's just the thing. These supercapacitors have wild performance swings over standard Earth temperature ranges. And the problem of freezing lead-acid car batteries has already been solved. It's called the Absorbed Glass Mat battery and it has been on the market since at least 1989 (has always been the OEM battery in the Miata, for example).

Re:Why are they even trying to do cars?

[soft_guy]

You obviously don't live in a very cold climate. When I was growing up, I had to use jumper cables routinely in the winter. I agree with your basic point, but I think that car batteries could still stand some improvement.

Don't worry. Thanks to wide spread use of cars, there won't be any cold climates much longer, so this won't be a problem.

Re:

[mcg1969]

Uhh, that's what they're doing. EEStor is not in the car business, they're in the ultracapacitor business.

Re:Why are they even trying to do cars?

[Harmonious Botch]

Becuause the State of the Union speech is tonight?

Ok, this will sound like conspiracy theory stuff, but is it not interesting that a small company in *Texas* just happens to announce a 10- to 20-fold imrovement on battery technology - and emphasises cars more than they ought to - just when an embattled prez is preparing to announce new domestic energy policies, and is widely blamed for foreign policies that are driving up oil prices?

Miracles Required?

[EricBoyd]

I've blogged about this EESTOR stuff twice already:

http://digitalcrusader.ca/archives/2006/09/power_s torage_r.html [digitalcrusader.ca]
http://digitalcrusader.ca/archives/2007/01/ultraca pacitor.html [digitalcrusader.ca]

And I remain unconvinced that they are going to actually achieve what they claim. And even if they did, we don't have the 10,000amp service at my house necessary to actually charge them at speed. And we haven't heard anything about "leakage" (or "self-discharge") rates.

It's all vapor ware until they show us a functioning prototype instead of just bragging about materials purity...

Re:

[Whiney Mac Fanboy]

And I remain unconvinced that they are going to actually achieve what they claim

Indeed, FTA:

"I get a little skeptical when somebody thinks they've got a silver bullet for every application, because that's just not consistent with reality," says Andrew Burke, an expert on energy systems for transportation at University of California at Davis.

Re:Miracles Required?

[Reality Master 101]

And even if they did, we don't have the 10,000amp service at my house necessary to actually charge them at speed.

I'm skeptical as well, but your argument above is silly. I don't have a refinery or a pumping station at my house, yet my car is quite practical.

Re:

[bunions]

filling a gas tank and charging a battery are surprisingly different propositions.

Re:

[Reality Master 101]

filling a gas tank and charging a battery are surprisingly different propositions.

So are filling a tank with gas compared with getting a bag of feed for the horse.

Re:

[bunions]

> So are filling a tank with gas compared with getting a bag of feed for the horse.

well, if it's ok to take as much time to refuel your car as it is to let a horse eat it's fill, then I guess we have no problems.

Re:

[maxwell demon]

Well, maybe the right solution is the same as with horses: Just like one changed the horses at relais stations, maybe one would simply change batteries at the filling station. Then it wouldn't matter too much how long they need to get refilled, only how long they need to be exchanged.

Re:

[anagama]

Around here, it is $25 to swap a tank a 5 gallon tank (20# tank, usual size for grill). Propane costs about $2.50 per gallon. In other words, you pay double to swap tanks, or half has much to refill (depending on your perspective).

Re:Miracles Required?

[Sj0]

That would put a dangerous financial burden on someone. Even ultracaps have limitations on the number of charge/discharge cycles, so at some point, someone is going to have to deal with testing these things and taking them out of circulation, or you're going to have situations where a person ends up trapped in the middle of nowhere because his ultracap died prematurely.

From there, you've got to ask yourself what the environmental impact of building these things is, what the impact of disposing of them is, and whether the change is going to make a means of transportation that is better than or worse than what already exists.

Re:

[Usquebaugh]

Not if the time frame becomes the same.

Roll up to the pump connect it to the refill tube, press the button hold the handle and it's all done. Now did I flow gas or electrons.

Who cars as long as I don't attach a gas pump to my electric tank.

Re:

[bunions]

erm, the point was that the time frames can't become the same because:

we don't have the 10,000amp service at my house necessary to actually charge them at speed.

Re:Miracles Required?

[Henneshoe]

Where did you get your 10,000 amp service number?

TFA states the energy storage of the battery was 15 KWH. Therefore to charge it in 10 minutes would require 90 KW or 375 Amp service at 240 Volts. Now this would be a lot of current for a household circuit but totally within reason for a "filling station". A typical household application (30 Amps at 240 Volts) would be able to charge the battery in 2hrs 5min.

Re:Miracles Required?

[PietjeJantje]

Why charge batteries for cars on the spot and wait for it? Once, I like to drive up to what was once my petrol station, and quickly swap the battery for another one, fully charged. Now if Shell etc. is to produce or charge batteries, that would leave the logistics chain to the "petrol" station intact, hence leading to a higher probability of success.

Re:

[Hirsto]

I have 300A 240V service to my house. I can run the breaker at the design limit and pull 15kW-hr from it in 12.5 minutes and only spend $1.00 (I live in an obscenely cheap power state) I think the battery would be very hot.

I'm extremely skeptical of the new super-capacitor claims as it implies a 6 Farad capacitor rated at 3KV that weighs less than 100lbs and can supply 15kW continuously for one hour all the way down to 0V. To perform the same feat I'd need something like 2,200 Maxwell BCAP3000 super-capa

About fast charging...

[mcg1969]

I see the claim about charging in 10 minutes---but I've never seen them claim that will happen at home. It is indeed quite clear, as you've figured out yourself, that a residential hookup just doesn't have the capacity for a fast charge. But frankly, that's not that big of a deal, because in practice it will not be impractical to recharge a car at home over the course of hours.

It's when you're on a long trip and you need to refill and go that you'll be wishing for a filling station with an ultracap-compatible, high-power electrical supply---for which you'd likely be willing to pay a premium kWh rate.

Re:

[mdsolar]

Well, if you don't mind the expense of having two of them, you could keep one charged at home, make a quick pit stop, and off you go. If they can make the amps, they can take the amps.

Stop, stop, I can't help flogging this:
If you have solar power you can take your transportation off of fossil fuels too. The range issue looks as though it may be fixed with this technology. Once you get an electric vehicle just add a few solar panels to your locked in rate solar system and your fuel costs are fixed to

Re:About fast charging...

[cbc1920]

Um... Couldn't you just use another bank of capacitors? At home, you can charge one bank slowly, and when you get back from the trip, use them to dump power into your car. The ones at home would be cheaper because there are much lower size and weight restrictions.

The same concept applies at the gas station- just have a big bank of capacitors. On the other hand, this type of power is perfectly doable if you have a high voltage line going to the gas station. I think people forget how much juice is going through those things, thousands of times more than what gets to your house.

Re:

[camperdave]

a residential hookup just doesn't have the capacity for a fast charge.

You could use some sort of energy accumulator. Store up the hydro for 24hrs, then dump it in 10 minutes. You could dump 144 times what a normal residential service could provide directly.

Re:About fast charging...

[Colin Smith]

You don't have "pumps", you have parking spaces with chargers instead.

Re:

[Fordiman]

Why would you need 10kA service? To fill up the 12kWh at home on the spec'ed out batteries, you need 120V@12.5A and an eight hour nap. Don't have that kinda time? Go to your service station which will be happy to fill you up at 12000V@30A (coming directly off their own ultracapacitors which are filling up off 120V@100-500A).

Re:

[Frumious Wombat]

Bigger issue is whether there is enough of the raw materials needed to produce their product on the scales they claim. Short answer: no. Barium isn't a problem, though it's energy intensive to refine, but Titanium supplies are pretty tight, and mostly eaten up by aerospace. Now, maybe they can start with refined TiO2 (which is cheap), and skip the pure metal stage, but I would want to see the synthesis and yields first.

Iron-Phosphate is much more probable as a battery material, as it's available on the

Re:

[adrianmonk]

And even if they did, we don't have the 10,000amp service at my house necessary to actually charge them at speed.

Having a special hookup from the electric company is not the only possible way to charge one of these quickly at home. This electrical engineering problem can be solved with a technique that software guys have been using for quite some time: double buffering. Simply buy another bank of ultracapacitors with a slightly higher capacity (to account for losses), and slowly charge that up overni

Color me

[Buelldozer]

a deep shade of skeptical. In fact I'm borderline disgusted. A claim like this should ONLY be made when at least an engineering sample is available for review.

I'm tired of "too good to be true" products whose primary goal is to draw VC.

Re:

[jonnythan]

Well those products cannot make it to "engineering sample" unless they have funding.

How do you propose they get it?

"Yes, sir, this probably won't work. If it does it probably won't be any better than what we have now. But give us tons of money to find out!"

I hope they last long

[scoot80]

Geez.. ultracapacitors.. we had supercapacitors till now.. whats next.. ubercapacitors? ubersuperultracapacitors.. anyhow..

So far, the supercaps i know of are quite expensive, and their performance degrades - i.e. with each charge cycle, the capacity gets smaller and smaller. I am not sure what the lifespan of a supercapacitor is, but it surely isn't terrbily long. I guess for the current applications (flash in cameras for example) its not all that critical - how many times is flash used over the lifetime of the camera.. If the lifespan is really improved, then they may be onto something.

Re:I hope they last long

[fred fleenblat]

>> ultracapacitors.. we had supercapacitors till now..
>> whats next.. ubercapacitors? ubersuperultracapacitors..

googlecapacitors!

Re:I hope they last long

[Brickwall]

>> ultracapacitors.. we had supercapacitors till now.. >> whats next.. ubercapacitors? ubersuperultracapacitors.. googlecapacitors!

I for one welcome our new googlecapacitor overlords.

Googol = 10^100

[MCRocker]

googlecapacitors!

Argh! The success of google [google.com] has overshadowed the very word that was the inspiration for the name in the first place... googol [wikipedia.org]. May I suggest... googolcapacitors?

Durability

[Beryllium Sphere(tm)]

Ultracapacitors are good for hundreds of thousands of cycles [electronicproducts.com]. It's one of their advantages over a rechargeable battery.

I was pretty sure...

[Belial6]

I was pretty sure the order was supposed to go:

Capacitor
SuperCapacitor
Capacitor64
Capacitor^3
Gii

Some people will claim anything to get investors..

[gweihir]

I bet in a few months, they will only be somewhat better and in a year, it will turn out that their product is actually inferiour for mots applications. Same scam over and over again.

Re:

[gweihir]

For a hybrid, that is ok. The power does not need to be stored long-term. And batteries loose a lot and die fast if they have to be charged fast. Capacitors are very good in that department and may be suberiour to batteries if you have several 10's of charge-discharge cycles that may be interrupted at arbitrary times per hour.

Of course it is possible that we will have capacitors in 10-20 years that can sort of compete against todays batteries. But the claims made seem very inflated.

Pound for pound.

[Tackhead]

> Ultracapacitors have many advantages over traditional electrochemical batteries. Unlike batteries, "ultracaps" can completely absorb and release a charge at high rates and in a virtually endless cycle with little degradation.

10 amp-hour 12V Li-Ion Battery: 500 grams ($100).

versus

10 amp-hour 12V Ultracapacitor (or 36-amp-second 12kV ultracapacitor): 50 grams ($100).
Current-limiting resistor of sufficient wattage rating to ensure that ultracapacitor storing that much energy won't vaporize any conductor that it happens to touch...: 450g. ($Priceless)

Re:

[fred fleenblat]

<sarcasm mode=a_little_bit>
Yeah, li-ion batteries never have safety issues.
</sarcasm>

Next Year's Vaporware?

[AK Marc]

The company is expecting delivery of the systems later this year.

Great. Call me on December 31 and I'll tell you how it's looking. At least they gave a date of delivery. We'll know when they didn't make it. Not that I'm hoping they'll fail. I would be a good fit for an electric car. But I'll never buy a chemical battery based electric or hybrid. Why? I'm in Alaska. Capacitors can work at low temps much better than the chemical batteries. Not to mention a cell phone with longer life, lighter lapt

Re:

[volsung]

Unfortunately, it sounds like they aren't yet able to make things work in very cold environments. From the article:

He also doesn't believe that the ceramic structure--brittle by nature--will be able to handle thermal stresses that are bound to cause microfractures and, ultimately, failure. Finally, EEStor claims that its system works to specification in temperatures as low as -20 C, revised from a previous claim of -40 C.

Re:

[AK Marc]

I read that it is rated at -20, not -40, but that doesn't matter for me. They need -40 for automotive applications, according to the article. For some of the same reasons GM wouldn't let anyone outside CA and AZ get an EV-1 (led acid sucks in the cold), they'll have to make it work or not sell it. Some electric cars have warmers around the batteries to keep them in proper operating range and prevent damage. That wouldn't be hard with this system. It gets colder in MN than here. I'm in Anchorage, coast

Hate to break it to you:

[ArcherB]

But I'll never buy a chemical battery based electric or hybrid. Why? I'm in Alaska. Capacitors can work at low temps much better than the chemical batteries.

From TFA:

Finally, EEStor claims that its system works to specification in temperatures as low as -20 C, revised from a previous claim of -40 C.

"Temperature of -20 degrees C is not good enough for automotive," says Miller. "You need -40 degrees." By comparison, Altair and A123Systems claim that their lithium-ion cells can operate at -30 C.

Re:

[WindBourne]

Of course, a heater on the capacitors would work wonders. Add a small battery that is used just to heat the capacitors. This ultra capacitor could be made to work up north without too much work esp if this is a hybrid system (as opposed to pure electrical).

Re:

[AK Marc]

Actually, their system is WORSE than lithium Ion batteries at low temps.

Chemical batteries lose effeciency as the temperatures decrease. At -19 C, it will have even a greater advantage over chemical batteries. Then, at -21 C (assuming a hard floor, which is overly pessimistic) the capacitors will fail. As long as you aren't below the minimum operating temperature, they are increasing their lead over chemical batteries. Then they fail completely. Chemical batteries also have a temperature at which the

Temperature is absolutely NOT a problem

[fyngyrz]

This temperature "issue" is a red herring.

As the thing requires being kept above -20 to work, put it in a well-insulated box with an electric heater and see to it that the heater comes on if the temperature goes near -20. A heater working at those temperatures, and only looking for a rise of a few degrees in a very small volume, wouldn't consume much energy at all, and it can tap the ultracap for energy, or simply be plugged in. Or keep your car in a garage. Or both. Hell, around here, we have to plug i

Patents anyone?

[argoff]

Are they going for a patnet or do they have one? If so it is guaranteed that they are either full of shit, or will be so high priced that it won't be worth it.

Can I buy stock in this company?

[deft]

Or does the stock not yet exist either?

Re:Can I buy stock in this company?

[ThePopeLayton]

If you are ready to buy stock in this company after reading this article. I own a business that you might want to buy stock in. My company makes food replicators, the kind on star trek. We don't have a working model yet but it should be out in a year or two. Please send checks to.... you will receive your stock certificates in 6-8 weeks.

I don't know about you but...

[Quick Sick Nick]

I find this shocking.

Re:I don't know about you but...

[fyngyrz]

I've been insulated from this kind of humor all my life, and frankly, it made me want to bolt. I'm trying to resist, but my capacity for remaining grounded has charged off over the horizon, transforming me from a person who inducts current events into their personality to one who follows an entirely different arc.

Seems unlikely

[mgemmons]

Per the article,

Pound for pound, it will also pack 10 times the punch of lead-acid batteries

So, let's see...lead-acid batteries have a energy density of 30-50 Wh/Kg. Lithium-ion is 110-160 Wh/Kg. If it packs 10x as much as lead-acid batteries we can expect an energy density of 300-500 Wh/Kh. About 3-4x that of li-ion battery. Although the claim doesn't seem overly outrageous I find it unlikely that someone has managed this sort of improvement while the rest of the world is clueless.

The article is confusing

[mcg1969]

The 10x comment must be pretty rough. From the article, the EEStor ultracaps will come in at 280Wh/kg, with Li-ion at 120Wh/kg and 32Wh/kh. So really, it's more like 2.3x the density of Li-ion. I dunno, that doesn't seem that far to me.

It is far compared to other ultracaps.

[guidryp]

"So really, it's more like 2.3x the density of Li-ion. dunno, that doesn't seem that far to me."

But it is around a factor of 50 over other ultracaps.

Re:

[budgenator]

FTA

For example, the company's system claims a specific energy of about 280 watt hours per kilogram, compared with around 120 watt hours per kilogram for lithium-ion and 32 watt hours per kilogram for lead-acid gel batteries

so they're claiming more like 2 1/3 an Li-ion battery. On the other hand even if the thing is too fragile and doesn't have enough temperature range for over-the-road use as some anticipate, I can think of some useful thing to do with it in a stationary mode such as peak buffering

Dupe

[ed_g2s]

As likely as it was in September: http://hardware.slashdot.org/article.pl?sid=06/09/ 25/1837254 [slashdot.org]

Not a dupe.

[WindBourne]

This one has more info. The other one was more business aspect. This one is lightweight tech and has a bit more behind it. Now, the skeptics can attack it.

Good news, bad news...

[bobdotorg]

The good news: everything in the article is true, and they've already started production with a major worldwide OEM.

The bad news: it's Sony.

Re:Good news, bad news...

[ScrewMaster]

The bad news: it's Sony.

The news is still good ... after the inclusion of a detonator they've been repurposed as low-cost cluster bombs for the U.S. military.

Re:

[jamesh]

Didn't Sony just recall a whole heap of Li-Ion batteries? They could use those as detonators!

Don't Try This At Home

[StikyPad]

The trick is to modify the composition of the barium-titanate powders to allow for a thousandfold increase in ultracapacitor voltage--in the range of 1,200 to 3,500 volts, and possibly much higher.

Oh man.. as if tossing a charged capacitor to an unsuspecting victim wasn't funny enough already.

Re:

[mcg1969]

Oh man.. as if tossing a charged capacitor to an unsuspecting victim wasn't funny enough already.

I just don't get this danger angle. I mean, yes, charged high-voltage capacitors can be dangerous. So can bottles of gasoline with flaming pieces of cloth stuffed in the neck. And yet, none of us seems to be particularly freaked out by a fifteen-gallon can of gasoline strapped under our butts when we're driving---even with thousands of tiny explosions occurring per minute under the hood in front of us.

I'm not sa

Re:

[StikyPad]

I'm pretty sure the GP was referencing the practical joke of throwing a charged capacitor at someone. Obviously if that's funny on its own, then using a supercapacitor will be hilarious.

Phillip Jose Farmers Riverworld series had this.

[pecosdave]

The Not For Hire ran on a batacitor charged on the grail stones. According to Phillip Jose Farmer these things were supposed to have been developed in the early 80s. 5th paragraph [everything2.com].

I can't really understand Jim Miller's criticism

[sonoronos]

Taken from the Technology Review article:

"We're skeptical, number one, because of leakage," says Miller, explaining that high-voltage ultracaps have a tendency to self-discharge quickly. "Meaning, if you leave it parked overnight it will discharge, and you'll have to charge it back up in the morning."

The Jim Miller quote above confuses me, as Maxwell Technologies advertises a 125V output power module which is spec'd to only lose 70% of its charge after 30 days. So why is he contradicting his own company's products?

For those who are unfamiliar, while ultracaps sound fantastic, they are ultimately bound by the physical laws of capacitors, one law being that their output voltage drops (linearly) as they discharge. Maxwell Technologies knows about this, so they develop ultracapacitor arrays with extremely high internal voltages (4000+ V) and regulate the power output using efficient step-down converters. Battery cells, of course, do this naturally, because the electrochemical reactions generating the current do so at a voltage determined by the electric potential of the galvanic reaction inside the cell.

This is one reason why you don't hear much about using ultracaps in portable electronic equipment. While ultracaps may be relatively compact, they are still bulky, and though they may be able to provide the necessary voltage, you have to factor in doubling or even tripling the required voltage to use efficient step-down converters. The story gets even worse for charging. Let's say you want to charge using 12 volts DC. Do you run through dedicated charging circuitry which takes in "safe" voltage, but can only charge the ultracap at battery-style rates (low current), or do you try and charge the ultracap in its theoretical minimum charge time (high current), which means that the wall-warts you are used to seeing will look more like big, boxy IGBT/Invert-based welders (and you thought your xbox 360 power supply was big...)

In short, while it sounds good in theory, the practical challenges of discharging and charging ultracaps are fairly sizable.

Re:I can't really understand Jim Miller's criticis

[jmorris42]

You are almost there, just put the parts together correctly. You said:

> Maxwell Technologies advertises a 125V output power module which is spec'd to only lose 70% of its charge after 30 days.

and

> they are ultimately bound by the physical laws of capacitors, one law being that their output voltage drops (linearly) as they discharge.

Now do the math. Or you could if enough numbers were available, so lets do it back of the envelope style. It's all about the discharge CURVE. Remember caps won't self d

Clarifying my post...

[jmorris42]

Typing too fast.... before someone else points out the idiocy in my original post I'll fix a few of em myself.

> Get the losses down where those Maxwell caps are and you lose 15 miles per day to losses.

Since the power loss is not constant, which was the whole point, obviously this part has to be taken in the context of the next (fairly mangled) sentence and assume nightly recharging to 100% to enable the 500 mile advertised range. Which would be the logical course, so an unexpected trip could be undertaken without worrying about charging.

> Large losses mean splitting it into banks and only charging what you plan on needing plus a reserve.

Doh. The obvious method is of course to leave it one big bank and only recharge it to give tomorrow's driving plus a fudge factor if self discharge is a problem. (Explanation left as exercise)

But running the numbers a little more gets some disturbing trends. Assume the loss is only equal to 15 miles of driving per day as I did in the best case above. That means every single car would be wasting enough power to drive a NYC to LA round trip annually. But keep the caps around 25% charge most days would cut the waste in half. Assuming that the real world loss curve looks close to a perfect capacitor discharge.

Kleiner Perkins is funding this

[Animats]

First off, this was reported in Business Week back in 2005 [businessweek.com], with some of the same quotes.

What's striking is that Kleiner Perkins, one of Silicon Valley's top venture capital firms, is funding this. If they're funding it, it's not totally bogus; they will have done a due diligence and had some competent people look over the technology. There may turn out to be some reason it's not feasible, but if it was physically impossible, they wouldn't have obtained money from that group.

Re:

[Jeffrey Baker]

Kleiner Perkins has funded dozens of not hundreds of completely bogus businesses that failed miserably. I've been to conferences consisting entirely of K-P startups pitching their bullshit business plans to each other.

Is this more wishful hype than physics?

[viking80]

barium titanate has an extremely high dielectric constant of around 5000 at room temperature. see http://www.sjsu.edu/faculty/selvaduray/page/papers /mate115/hsiaolin.pdf [sjsu.edu]

This is hundres of times more than polystyrene, but the challeng is still formidable:

A cap with 320Wh/kg or 1GJ/m^3 or 1kJ/cm^3 at 3kV would require:

C/cm^3=0.7Farad

Since C=k*e0*A/d, e0=8.8E-12, k=5000
we get C(BaTiO3)/cm^3=4.4E-8*A/d
and with A*d=1cm^3 (not all of the cap can be dielectric so this is a ceiling)we get:
A=4m^2 and d=250nm

So with d=250nm, and U=3kV, the voltage across the dielectric is 12GV/m. Breakdown voltage for most ceramics are less than 300MV/m.

This would imply less than 1% the capacity claimed. Still an incredible feat, but the car would only go a few km.

Long on hype, Short on evidence.

[guidryp]

Extraordinary claims require extraordinary evidence.

This has been hyped every few months (VC funding cycles?) for a couple of years now. I remember it was supposed to be in Cars last year, I expect I may be saying that next year as well. As of yet they have not delivered a single testable capacitor for anyone to test. I am not talking about a car sized unit, I am talking the smallest cell that delivers on any of the extraordinary claims.

I have seen a couple of people with some related physics knowledge exam

Year 3 of the supercap revolution

[heroine]

Isn't this the 3rd year these startups have been pitching supercapacitors? The first one was in San Diego. In exchange for a super sized check, they gave you a 5F capacitor that supported up to 1V and recharged 100 times before it died. Still nothing new to report here.

The "electric car revolution" is a funny thing. As soon as you cross the Sunol grade, all the hybrids, vegetable oil, methane, ethanol, corn starch, soybean powered cars disappear and you're back in giant SUV land.

Brown U has similiar, polymer tech

[J05H]

Heard about this on the radio and looked it up a couple months ago:

http://www.brown.edu/Administration/News_Bureau/20 06-07/06-022.html [brown.edu]

It's a battery-capacitor hybrid that has interesting properties. It's not at the same production level, but doesn't provide quite the same strong claims as the EESTOR system. Any opinions on the Brown effort?

Josh

About 10 or 15 years back.../usage model

[EmbeddedJanitor]

There was some battery technology that used liquids. When the battery ran flat, you'd just pump out the old and pump in fresh and you'd be recharged and going again. The proposed technology would be supported by "gas station"-like refill services where you'd dump the old stuff and pick up recharged new stuff. The proposed usage madel was very much like a regular gas car. Unfortunately the technology never got commercialised.

Perhaps the same could be used here. Pull into a "gas station". Dump & replace t

Redox flow batteries

[EmbeddedJanitor]

This is what I was talking about... http://en.wikipedia.org/wiki/Flow_Battery [wikipedia.org] http://www.refueltec.com/ [refueltec.com]

Re:

[Brickwall]

If they can make a reasonable electric battery for a car that provide power for trips up to 60 km or so without needing a recharge, transportation could change dramatically. Couple in a gasoline engine to recharge the battery for longer trips (like a hybrid vehicle) and you could probably cut oil use by the general population by half or more.

Um, you mean like the recently announced Chevy Volt (made by GM, the "company that killed the electric car"), which has a 40 km capacity on battery, and a small elec

Re:

[localman]

I hate to be a party pooper, but I doubt that something as revolutionary as the Chevy Volt will not be on the market in the next 5 years by any American automaker. I've been casually watching concept cars for a couple decades now, and very little of the dramatic tech makes it into production vehicles. It seems that they're just a way to keep people excited while they churn out the stuff that really sells: big cheap boxes.

On the other hand, I hope I'm wrong and if I am, I'd certainly be a potential custome

Re:

[dbIII]

but I doubt that something as revolutionary as the Chevy Volt will not be on the market in the next 5 years by any American automaker.

Two things - first it may not be as revolutionary as the claims so may be similar to other things already in development - and second GM is not a US only company. Their US products may be unfit for export and in danger of losing on quality to China but their cars from Germany and other places certainly are of good quality.

Re:

[kfg]

If they can make a reasonable electric battery for a car that provide power for trips up to 60 km or so without needing a recharge, transportation could change dramatically.

Yeah, then all we'd need is this shit called "energy."

KFG

Re:Fantastic! Until...

[bobscealy]

This might be some shocking news to you - but your big oil companies didn't end up rich and powerful by being morons. I fail to see the financial gain in Shell (or any other big oil) buying the company and disbanding the project. Wouldn't it be more sensible for them to buy the company, finish development, and then have a strategic advantage over their competitors by being able to roll with the punches as oil demand goes down and demand for high performance energy storage goes up.

Actually, no, what I have written is crazy. I forgot to take into account that these are the same people that suppressed the 400 mile to the gallon carburettor and had the guy killed that invented the car that only runs on water.

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[Lothsahn]

Those are fantastic claims. Do you have sources?

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[Harmonious Botch]

I think P was being sarcastic.

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[SeePage87]

If the battery works the way they claim it does for as cheap, etc., then they stand to make much more money letting the company flourish then selling it to Shell. Even if they did sell it, Shell would have the wits not to destroy the technology; they would just become a more diverse (and profitable) energy company as a result of the accusation.

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[FST777]

If the current owner has a mind at all, he will realize that he might just have a silver bullet if Shell is that interested. That means he won't sell.

As long as a company doesn't have 66% of its shares on the market, it's not that easy to buy out a potential competitor.

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[Dunbal]

As long as a company doesn't have 66% of its shares on the market, it's not that easy to buy out a potential competitor.


Although there are plenty of other ways a huge corp can put a little guy out of business WITHOUT buying him out... and as a last resort they can always rely on goverment lobbying to introduce new legislation at different levels (municipal and up) to put insurmountable obstacles in their path...

Best to keep quiet about something like this unless y

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[geekoid]

yes, lets not by it and be the sole owner and reap many hundreds of Billions of dollars, look like the good guys, and watch are competors dry up over night, that wouldn't make sense at all.

Idiot.

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[Harmonious Botch]

Sorry, but this is drivel.

Shell can't afford it. If it is even half of what its proponents claim it is, the value of the technology is in the multi-trillions. Shell doesn't have that kind of cash sitting around. Perhaps they borrow it? Then they have to pay off the debt, and they are competing with the other major oil companies who don't have to service a huge debt. Perhaps a comglomeration of major oil companies? The coalition will not hold together, because the first oil company that does not join

Re:

[Fordiman]

Feh. I want to know two things:
Watts per kilogram (330) and Watts per cubic centimeter (not derivable from speculations).

Then I'll be impressed.

(a 25g AA battery at 1.2v output would store 6875 mAh, assuming a similar density to NiMH. Half of that would impress me.)

Another Slashdot "Investment Opportunity"?

[Futurepower(R)]

Be careful. Slashdot has been running lots of stories that are "investment opportunities". Read this, the first comment to the story linked from the Slashdot story. I didn't write it, it was written by someone with the nick Emosson, but it sounds correct. (Also, read the other comments showing skepticism of the idea.):

"Unfortunately EEStor never made and will never make the supercapacitor described in the patent [google.com] because they ignore a well known physical effect, called "dielectric saturation".

"Barium titanate has been used in capacitors for decades, due to its high dielectric constant: (PDF file) [avxcorp.com].

"However, the dielectric constant drops as the electric field strength increases: http://www.nap.edu/books/NI000488/html/49.html [nap.edu]
http://prola.aps.org/abstract/PR/v71/i12/p890_1 [aps.org]

"At a hypothetical field of 3500 Volts over a thickness of 12.76 micrometers, as proposed in the patent, the dielectric constant of barium titanate would be orders of magnitude lower than the claimed 18500, reducing capacity and energy density by the same factor...

"This has been discussed in more detail by Prof. Anatoly Moskalev on December 24th and 26th, 2006 in
http://www.teslamotors.com/blog1/index.php?p=43 [teslamotors.com]

"with an update on January 20th, 2007:
http://www.teslamotors.com/blog1/?p=46 [teslamotors.com]."

Also read this comment considerably below:

"Further evidences of EEstor's hype! by Roger Pham 1/22/2007 10:41 PM

"In his patent #7033406, Richard Weir, EEstor CEO, cited data published WAY BACK in 1985 from the Japan's Journal of Applied Physics, as basis for the high dielectric property of Barium Titanate (BaTiO3)powder, when coated with aluminum oxide and calcium magnesium aluminosilicated glass. If BaTiO3 capacitor was so good way back in the 1985, the likes of the GM EV1 would be around evey street corners since 1996, or the Prius would have been a PHEV way back in 1997!

"What held back coated BaTiO3 powder from becoming a SuperCapacitor was the fact that BaTiO3 has dielectric property that varies by nearly ten folds with just typical seasonal swing in ambient temperature, and the fact that its dielectric property drops by as much with high electrical field strength, as Emosson has brought up!"

Re:

[jamesjw]

It does indeed sound aw.. ahh crap!! low battery warning!!

-- Jim.

Re:

[Fordiman]

Why would it?

For example, your television steps your house current up to a couple thousand volts. At, say, 120kv, your house circuit need only handle 20A (ie: 120kv by 0.02A is 20A at 120v. Given the specs of 280Wh/kg and 100lb [45.5kg] for a vehicle power system, that means we have 12kWh to fill. That means 5 hours for a complete fill-up, or just leaving your car plugged in overnight.)

Re:

[lhaeh]

Well I wouldn't want 120KV lines in my house, kinda dangerous since they arc 5 feet or so. You would also have to have a transformer to upconvert from street voltage to 120KV, those are expensive. Just because you increase the voltage to offset the current flow, it will not negate the fact that you are sending 12KW through, you need big wires for that.

Re:Charged in 10 minutes

[Fordiman]

"Well I wouldn't want 120KV lines in my house, kinda dangerous since they arc 5 feet or so. "

Not lines; a line. Proabably with a nice idiot-proof interconnect (so there's never any bare conductor). You could probably do it with a low-voltage/high-current magnetic coupling (also designed to not be 'on' until coupled).

"You would also have to have a transformer to upconvert from street voltage to 120KV, those are expensive."

Never heard of a flyback? If not, I don't suggest disassembling your TV. Anyways, they can be had for tens of dollars, or built for less (if you have LOTS of time on your hands)

"Just because you increase the voltage to offset the current flow, it will not negate the fact that you are sending 12KW through, you need big wires for that."

You're not sending 12KW through; you're sending 12 kWh through, over the course of five to eight hours. That means your cable has to be rated for 1500-2400W, 12.5-20A@120V at the transformer input, 0.0125-0.02A@12kV at the output.

Knowing a little Ohm's Law might help you out. Or at least knowing the difference between a Watt and a Watt-Hour.

Meanwhile, the voltage step up has nothing to do with 'offsetting' the current. Because of the way ultracaps work, you have to fill them using a very high potential difference (or suffer a greatly reduced operating capacity). You then step the voltage back down in the device using it (one of the reasons I don't see this tech in small applications anytime soon).

Anyway, a 20A/120V line is about 3/8" in diameter, insulator included (you generally see them as the bright orange extension cables). Hell, your air conditioner has thicker than you'd need (they're usually rated for 30A@120V). Truth is, current determines conductor size, so at 0.02A the conductor need not be very thick - though you'd want to bring it back up to the 3/8" diameter using insulator so as to protect from the voltage; I imagine 12kV would hurt a bit.

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[Fordiman]

Meanwhile, if you don't have time to wait 8 hours (I imagine most people would have it plugged in as they sleep), you pull up to the juice station and plug into their 12kV@30A (360kW) line and be out of there in two minutes flat. It would best be supplied off their own ultracaps that feed off a continous flow of converted 480V 3-phase at 100A apiece (48kW, meaning a 15 minute recovery time per customer. As a station, you'd want lots of extra capacity). I give this setup because there's already infrastruc

There was also one for lithium batteries...

[Ungrounded Lightning]

Isn't there other capicitors in an earlier story..

Nano fibers used to increase a capacitors surface area i believe was the concept.

There was also a similar development with lithium cells, also using nano-fiber graphite forests for electrodes, producing hysterical energy densities and recharge rates (like 80% in a minute or so), high efficiency (since they'd slag down at that rate otherwise), and both long lives and a large numbers of cycles (since the graphite nanotubes don't tend to degrade anywhere but a