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Fuel Cell Marvel "Bloom Box" Gaining Momentum

Posted by ScuttleMonkey on from the new-hotboxing dept.

Many sources are continuing to excitedly report on the latest in a long line of startups chasing the holy grail of power sources. This incarnation, the "Bloom Box" from Bloom Energy, promises a power-plant-in-a-box that you can literally put in your backyard, and has received backing from companies like eBay, Google, Staples, FedEx, and Walmart. CBS recently aired an exclusive interview with K.R. Sridhar about his shiny new box. "So what is a Bloom Box exactly? Well, $700,000 to $800,000 will buy you a 'corporate sized' unit. Inside the box are a unique kind of fuel cell consisting of ceramic disks coated with green and black 'inks.' The inks somehow transform a stream of methane (or other hydrocarbons) and oxygen into power, when the box heats up to its operating temperature of 1,000 degrees Celsius. To get a view of the cost and benefits, eBay installed 5 of the boxes nine months ago. It says it has saved $100,000 USD on energy since."

12 of 562 comments (clear)

  1. Payback period? by danbert8 · · Score: 4, Informative

    Ok, so 5 units at 800,000 is 4 million. If they save 100,000/9 months, that's 133,333/year. So it'll only take them 30 years to repay the cost, assuming that money has no time value of course. Sounds like a poor investment to me.

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    1. Re:Payback period? by Maximum+Prophet · · Score: 4, Informative

      The state of CA kicks in a few tax incentives and there are Federal incentives.

      These are the first. Once production is geared up, the cost will come down, unless they are using unobtanium in the paints on the ceramic plates.

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  2. 60 Minutes show: Inside the Bloom Box by Futurepower(R) · · Score: 3, Informative

    There was a piece about that on yesterday's 60 Minutes show: A Peek Inside the Bloom Box. The story is reported by Lesley Stahl, who was her usual self: "Wow! Gee Whiz! I want you to be impressed by technology, but I personally am not really interested in it."

  3. Re:By my math... by McBeer · · Score: 4, Informative

    5 * ($800,000) = $4 Million. At current energy prices, saving $100,000 every 9 months would mean they recoup their initial investment in about 30 years. I'll pass.

    Yeah right now the ROI (3.3%) doesn't even keep up with average anual inflation (3.4%), but I think they are cutting it some slack as it's a very new technology that has yet to benefit from mass production and innovations in the production process. Later on it could prove to be an excellent investment.

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  4. Re:Need more details by mprinkey · · Score: 5, Informative

    These are solid oxide fuel cells (SOFCs). The catalyst is probably a little bit of nickel or some other fairly abundant metal. Platinum and/or palladium are needed as catalysts only for low temperature polymer electrolyte membrane (PEM) fuel cells.

    Also, PEM fuel cells can be poisoned by carbon in the fuel stream. SOFCs can pretty easily oxidize CO and H2 and possibly even CH4 or C2H6 due to water-gas shift reactions.

    IAA Mech Eng. I spent six years writing software to model both kinds of fuel cells.

  5. More Information on fuel cells. by nmonsey · · Score: 4, Informative

    Here is a quote from the EETimes article. "The resultant Bloom Boxes are not inexpensive today— about $750,000 for a unit capable of running a household (about four to six units are needed to run a typical data center). But within five to 10 years the company promises to reduce the price to as little as $3,000" These fuel cell are not being mass produced yet. Please read about fuel cells before making any judgments about the technology. http://www.fuelcelltoday.com/online/news http://www.fuelcells.org/news/updates.html There are many other companies working on similar fuell cells for homes and vehicles that have already been in use for several years.

  6. Re:Magic by Rei · · Score: 3, Informative

    An equivalent of the Carnot limit exists for thermochemical cycles as well -- Gibbs free energy. The Second Law is not merely constrained to heat engines. H2 + O2 has a higher entropy state than H2O (esp. if the H2O is liquid or solid). So the reaction is a reduction in entropy. It must correspond with a greater increase in entropy for the equation to be balanced -- i.e., waste heat. The maximum theoretical efficiency for a fuel cell can be calculated as described here. You'll notice that it *does* depend on the operating temperature. Also note that in practice, fuel cells don't get anywhere close to their theoretical, esp. in real-world conditions where you're not running them at low loads and where they're not being fed air rather than pure, pre-compressed oxygen as one of the feedstocks, plus all of the parasitic losses.

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  7. Re:About $2K savings per month by cgenman · · Score: 4, Informative

    You have to count opportunity costs. 5 boxes at $700,000 dollars would cost 3.5 million dollars. Assuming safe and conservative bond / CD investments at %5, they could earn $175,000 dollars per year at very low risk. That 100k dollar 9 month "savings" is actually costing them a total net loss of 41k dollars. It's better for them to just keep the money in a bank account.

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  8. Waiting to see what's in their secret sauce by coffeegoat · · Score: 5, Informative

    This interested me enough to actually register (finally). There is a bunch of really horrendous media coverage on Fuel Cells in general but it doesn't help that in the article they mix concepts from different types of fuel cells, different types of "green energy" and general marketing.

    Fuel cells that chemically transform reactants via an electrochemical reaction to products and release bunch electric energy directly along the way. You can think of it just like a battery that you keep putting more chemicals into. All fuel cells transform hydrogen and other hydrocarbons into electric energy with a little heat, all of them, they're solid state energy conversion devices not magical boxes. The big thing about solid oxide fuel cells is that they run at ridiculously high temps (600-1000C) so their reaction kinetics are tremendously faster than other kinds of fuel cells, they can self reform various fuels (natural gas, diesel, JP8, and they are tolerant to most containments (except usually sulfur and chromium).
    However, the high temperature comes with a price, their interconnects degrade extraordinarily fast, sealing is a problem because of huge thermal expansion mismatches, and finally at 1000 degrees materials stability is a big problem.

    As far as what they mentioned in the article, the "inks" are just catalyst layers, every fuel cell manufacturer and university uses those, everyone has their secret sauce. The "beach" is probably YSZ, or yttrium stabilized zirconia, which is the standard. The metal interconnects are coated with some conductive interconnects, no one would think of using platinum interconnects, they use that for catalysts on PEM fuel cells, it's totally unneccesary for SOFCS.

    And if you're wondering, I'm doing graduate work on SOFCs, so we see this marketed crap in our field all the time, hopefully Bloom Energy has solved some of those problems I mentioned.
    Other companies to check out: CFCL, Ceres Power

  9. Re:About $2K savings per month by jumpingfred · · Score: 3, Informative

    Where are you getting 5% CD these days? I see nothing over 1.75%

  10. Slashdot Pundits Know ALL (once again...) by Required+Snark · · Score: 3, Informative
    Well, it's great to see how the all knowing Slashdot Pundits can completely dismiss a technology with almost no information. I hate to be spoil sport but let's look at what we do know. (Actually I LOVE being a spoil sport on Slashdot, but never mind.)

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    Look at the initial client list: eBay, Google, Staples, FedEx, and Walmart. Clearly a bunch of looser companies with no technical expertise who can easily be taken in by a smooth talker who is selling a fake product that will never deliver. (Sarcasm.)

    The inventor: "Mr. Sridhar originally invented a similar device when he was working for NASA designing infrastructure for a prospective Mars colony". I know you all have an irrational hatred of NASA, but they do send spacecraft all over the solar system and help keep the ISS manned and in orbit. So it is at least possible that Mr. Sridhar is a smart guy who has done something interesting.

    The technology: "The discs are produced from baked sand and then painted on each side with the special ink. In between the discs an inexpensive metal (not platinum) is placed." So just maybe he has figured out how to reduce costs by using materials less expensive then semiconductor grade silicon an precious metals. This obviously leads to the Slashdot consensus that he is wrong.

    Current cost vs. long term cost: "Mr. Sridhar hopes the funding that's being virtually thrown at him and his enigmatic box will help drive down costs to below $3,000 for a residential unit within 5 to 10 years." The current "useless" price of $800,000 for an industrial unit means he has failed, and his projection of better prices in the future with mass production and further development is unfounded. Clearly decreasing prices of newly introduced technology never occur, according to Slashdot Pundits .

    Yep, the Slashdot Pundits are 100% right in trash talking this effort. The could do something much better themselves, but they are all far to busy doing the impotant business of living in their parents basements, playing WoW and posting on Slashdot.

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  11. Re:Need more details by mprinkey · · Score: 4, Informative

    Expensive to install. Reliability is a huge concern because they are ceramic and hence naturally brittle. But they also have rather large temperature gradients in them (part of what I was studying). Those gradients produces thermal stress which could really shorten the life of these things...you are talking about electrodes and electrolytes with thickness measured in 10s of microns, being heated by activation and ohmic losses on the inside, and cooled by reactant flows on the outside. Reliability, especially under transient loads, used to be a real concern. I'm sure that they have worked around many of the problems, either with careful control logic or special materials or both.

    Also, sealing these things was a real PITA too. Leaks from one reactant stream into the other turned the fuel cell into a combustor. There were other problems...someone above mentioned sulfer poisoning, so the syngas or whatever needs to be scrubbed. Also, ion migration was a problem. Due to the high temperature, the various ions in the electrodes and catalysts could redistribute themselves, not unlike what can happen in ICs that are run too hot or at too high a voltage.

    It is a new technology. DOE dumped a ton of money into research under the SECA program about 8-10 years ago. Their target was development of these little component units that could be deployed a few at a time or ganged together into a massively parallel power plant configuration. I'm glad to see someone at least got something out to market.