Soy Bomb

Soy Bomb DID YOU KNOW? Igor Stravinsky has a star on the Hollywood Walk of Fame. Okay guys, you did get me on the whole immaculate conception business. Although I guess my sentence could still be technically correcta komodo dragon could have an immaculate conception, assuming that it had a creator of an appropriate dispostionthe article was indeed about parthenogenesis. Anyhoo, the last time I posted, like, a gazillion years ago, I mentioned that I was working on a project for ICE-T that involved the possibility of incorporating a formic acid fuel cell into a handheld cell phone. After three years of p-sets (which, by the end of last year, I was beginning to punt in spectacular fashion), it was really refreshing to get a class where the only instructions were, Okay, read this paper, come up with a problem, and solve it yourself. Well be here if you need us! It was less refreshing to do all this in one month, but so it goes. Heres what I wrote last time: Were designing (not buildingthe designing part is hard enough), a fuel cell that could theoretically be used to power a cell phone. A cell phone of the future. Were not actually using hydrogen, because that could explode and kill you while youre talking to your grandmother about apple pie recipes, and that would be fun for nobody. Instead were using 22 M formic acid, which is, needless to say, MUCH safer. Just dont, you know, break your cell phone open or anything like that. Anyway, the formic acid is pressurized, so it goes through a reactor thats about 3 cm x 3 cm while air (80% nitrogen, 20% oxygen) flows in countercurrent. Redox occurs, theres a microfabricated nanoporous silicon membrane, and BAMF! Cell phone power! My friend Jacqueline and I are doing all this: all the design parameters and cost estimations, all the pressures and temperatures and safety calculations, and writing a 10-page paper and a powerpoint presentation on the subject, in four weeks. Integrated Chemical Engineering, or ICE, the senior capstone subject in Chemical Engineering, consists of two modules: one lasting eight crazy weeks, and one lasting four far crazier weeks, during which you take all the theoretical nonsense that youve spent the past four years learning and apply it to two different chemical engineering problems. This is so you can prove that you actually know how to do chemical engineering before you go off to work at your six-figure investment banking job and stop caring about fluid mechanics. You crazy kids asked a lot of questions that basically amounted to, But wait. Wouldnt you die? NO, Chester. The first step in the project was to establish a set of constraints such that a user of the phone would NOT die, which is probably something that real engineers in industry look at, too. We decided that the pressure in the fuel cartridge could not be above 10 atmospheres, the design had to completely isolate the 22 M formic acid from the user, and that the temperature of the cell phone could not be above 40 C. This would prevent death by shrapnel, acid burn, or setting your hair on fire. Our final design had an operating temperature of 38 C. I was kind of happy about the prospect of not killing people with my cell phone, but some smart-alecky student pointed out after my oral presentation that this is actually above body temperature. You cant fool all of the people all of the time! Why dont you stop being so picky and help save the world, Andrew? Based on these constraints, we designed a fuel cell that would fit in a cell phone and seemed like it would work pretty well. You fuel it by buying 2 x 2 in cartridges that you stick in and replace as necessary. Theres no need to worry about toxic waste, because the products of the redox reaction in a fuel cell are carbon dioxide and water. In fact, it would actually be less wasteful than batteries because you dont just throw the cartridges out when youre donetheyre designed to be refillable! Since Wal-Mart is a major player in my hydrogen economy of the future, there would be formic acid kiosks in every Super Wal-Mart (between the McDonalds and the one-hour photo) where you could take your spent cartridges to have the waste water drained and the formic acid refilled. We wanted to make sure that our hypothetical cell phone fuel cell would be a top-of-the-line model, so we e-mailed Professor Rich Masel of UIUC, who was listed by Wikipedia as the worlds foremost expert on formic acid fuel cells, to ask for the highest power density he had observed. Rich responded: The performance has improved since these papers were written, but the results were done at my company and never published. Looks like somebody felt a little threatened by our design! In the end, we found that you could indeed operate a cell phone using a formic acid! But we discovered that the energy content of formic acid in a 2 x 2 inch cartridge would be enough power a cell phone for about one day, if youre lucky. Then youd have to take a new cartridge out of your pocket, or purse, or man-purse, or whatever, and slip it into your phone. Besides the fact that youd be carrying around a couple cartridges of 22 M formic acid at all times, thats going to add up to a lot of cartridges pretty quickly. And a lot of trips to Super Wal-Mart. Also, any time youre not actively talking on the phone, its going to heat up to 80 C (178 F), which will burn a hole in your pants. But thats more of a problem for marketing than it is for us. So, our final conclusion was that using formic acid fuel cells as a sustainable energy solution in portable electronic devices such as cell phones is just something that depressed grad students and cynical professors say to get funding for their research, because all you have to do is say the world sustainable nowadays and people will just shower you with money and firstborn children. We are so smart!