Archive for the ‘capacitors’ Category

Volvo gets in on shapeable ultracapacitors

Thursday, February 25th, 2010

Looks like shapeable ultracapacitors have caught the attention of at least one car maker.

Volvo is looking to build energy storage into the bodies of its cars. In particular, the company is working with researchers at Imperial College London on carbon-fiber panels that are both structural and ultracapacitors.

From a New York Times Wheels blog post:

  • According to Emile Greenhalgh, the Imperial College aeronautics engineer who is coordinating the three-year project, “Our lightweight carbon-fiber panels can carry a mechanical load and store energy simultaneously, and we’re working toward achieving a 15 percent weight savings in a Volvo hybrid test car.” The ultracapacitors won’t replace the battery pack in hybrid cars — that’s still down the road — but their presence can make it smaller, lighter and cheaper.

The ICL project is along the lines of work being done by startup Paper Battery Co. and Stanford researcher Yi Cui. The ICL work is focused on multifunctional composite materials that can be used as structural components. The Paper Battery Co. and Stanford research is focused on producing shapeable, high-performance ultracapacitors that can be added to structural components.

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Ultracapacitors in the news

Monday, February 22nd, 2010

An Intel lab is developing nanomaterials for ultracapacitors, according to EE Times Asia (via Technology Review). The lab’s goal is to make devices that store more energy than today’s lithium-ion batteries.

And Mitsubishi Electric has a prototype hybrid ultracapacitor, according to a Nikkei Electronics story. The device has high power and high capacity but a relatively low number of cycles.

Intel and Mitsubishi Electric have a lot of company, as detailed in the new ERN report on ultracapacitors.

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Report on ultracapacitors: major advances on tap (updated)

Tuesday, February 2nd, 2010

You’ll be hearing a lot more about ultracapacitors in the next few years. The devices are poised to transform energy storage by taking over high-power functions from batteries in three key areas:

* Tying wind and solar farms to the power grid
* Stabilizing the grid
* Powering hybrid and electric vehicles

The ERN Research report, Ultracapacitors: Emerging technologies for high-power energy storage, analyzes ultracapacitor technologies for these large-scale applications.

The report details ultracapacitor types, emerging ultracapacitor applications, the components that make up ultracapacitors, the factors that contribute to ultracapacitor cost, performance variables, and future directions.

The report includes detailed profiles of

* 15 startups that are readying potential ultracapacitor breakthroughs
* 27 manufacturers and 29 other companies that have recently developed ultracapacitor technologies
* 52 researchers around the world who are pushing the boundaries of ultracapacitor science and engineering

Some highlights:

One of the hottest ultracapacitor technologies is electrodes made from closely-packed, vertical carbon nanotubes. These prototype electrodes store an order of magnitude more energy than today’s best commercial devices. Players to watch include MIT spinoff FastCAP Systems, research firm ADA Technologies and major ultracapacitor manufacturer Nippon Chemi-con.

Much ultracapacitor development is aimed at driving down costs. This usually means making cheaper carbon electrodes. Players to watch include startup SolRayo, activated carbon maker Reticle, research company TDA Research and University of Kentucky researcher Stephen Lipka.

Electrolytes are another key area, and ionic liquids and lithium are the hot topics. Players to watch include ADA Technologies, Kansai University’s Masashi Ishikawa, Bologna University’s Marina Mastragostino and research company LithChem.

Meanwhile, cutting-edge materials and nanotechnology research promise to push the boundaries of ultracapacitor technology. Researchers to watch include Yonsei University’s Kwang-Bum Kim, University of Texas’ (and Graphene Energy, Inc.’s) Rod Ruoff, MIT’s Yang Shao-Horn and Florida State University’s Jim Zheng.

Given the expected boom in ultracapacitors over the next five years and the differences among application requirements, it’s likely that there will be room for several emerging technologies to reach the market.

Ultracapacitor energy storage capacities are likely to increase by five to 10 times in the next five years, but ultracapacitors aren’t likely to make batteries obsolete. They will, however, replace batteries for many power-intensive applications, including hybrid vehicle acceleration and regenerative braking.

Several laboratory ultracapacitor prototypes are already providing 10 times the power and capacity of today’s commercial ultracapacitors. The key question is how readily these materials can be mass-produced and whether they can be made cheaply enough.

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DOE looking to launch battery hub

Monday, February 1st, 2010

The Department of Energy is looking to open a fourth Energy Innovation Hub. They’ve slotted $34 million in the fiscal year 2011 budget request to create a Batteries and Energy Storage hub. Overall, the budget request provides a boost for renewable energy research, including $300 million for ARPA-E and a $40 million increase in funding for Energy Frontier Research Centers. (see DOE budget boosts research)

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Pitching clean tech in turbulent times

Thursday, October 23rd, 2008

Congratulations to Riccardo Signorelli, winner of the MIT Elevator Pitch Contest last Saturday. Signorelli and his MIT colleagues developed a carbon nanotube ultracapacitor that promises to boost storage capacities to battery levels while retaining capacitors’ fast charge and discharge rates (see Nanotubes hold more electricity, TRN’s coverage of the researchers’ breakthrough two and half years ago).

At the MIT Energy Night earlier this month Signorelli told me that the nanotube growth process is well in hand and he’s focusing on developing a scalable manufacturing process. During his winning pitch Signorelli said he’s looking for people with manufacturing experience. Check out the webcast of the contest. Signorelli’s pitch is at about the 1:21 mark.

I’m no expert on venture financing, but I’d bet on Signorelli getting funding and building a team despite the current financial crisis. Two key applications he’s targeting are storing energy for intermittent renewable generation technologies like wind power and replacing toxic lead batteries in delivery truck fleets (UPS, FedEx, etc.) that burn through batteries every two to three months. It’s a strong, novel technology addressing acute needs.

Although the credit crunch has hit the clean tech sector, the impact is strongest on existing companies looking for later round financing. Early-stage ventures are likely to fare better, according to Rob Day, a VC with @Ventures. “Early-stage cleantech venture capital remains a very attractive investment area,” he said in a recent post on his Cleantech Investing blog. Incidentally, Day was one of the judges for the Elevator Pitch Contest’s energy track.

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