Why Batteries Haven't Kept Up

TimWeigel writes "Ever wonder why we can cram ever more computer power into smaller and smaller devices, but we're still (mostly) slaves to the almighty AA? This article on CNN touches on this very important facet of our lives - why the power sources for our Palm Pilots and Gameboys haven't matched the advances in computing power. In a word: physics." I had an interesting conversation with a person who's been doing a lot of research into batteries. Batteries have grown at standard normal industrial rates - which are much slower then Moore's Law, and hence, the source of our problem.

Why rechargeable batteries can't keep up

[valentyn]

A must read about rechargeable batteries is the NiCd Battery FAQ from sci.electronics, to be found at members.aol.com/ralph234/cb-page/f_nicd_b.htm . You'll see why NiCd batteries for consumers are merely fool proof instead of high capacity.

Dump those $15 battery chargers, get a good one, and you'll only need one Set of batteries for every appliance for the rest of your life.

OK, but do your own research

[Rogerborg]

Consider the "need to know" shortcuts in this article. For example "1859, when the first lead acid battery was made in France". This was the first cell using Planté type plates which are still in use today, but the history of lead acid and other cells goes back a bit further than that. It's a reasonable shortcut, but it does illustrate that this kind of article only skims the very surface. If you want insights, you have to go and do your own research.

On the other hand, they do make an important point: "Of the billions [of cells and batteries] sold each year, most wind up in landfills and incinerators". Well, that's pretty much true of AA type alkalines and carbon-zincs, but actually clunky old automotive lead acids are now recycled 95% of the time. NiCad's though are death in a tube: nobody wants to touch the bloody things. NiMh's and Lithium Ions are a little nicer, if you can find a local recycler who will handle them. Power Express used to accept small amounts of NiMh's and LiIons by mail, but they've changed their site and I can't find any mention of it now, which perhaps indicates the volatility (ha ha) of the recycling market. If you want some sleepless nights, have a look here for a decent overview of what you can and should be recycling.

Oops, but then we slip into the land of delusions again: "Batteries, which have long been derided for polluting the environment, will soon do their part to clean it up, MIT's Sadoway said. The same research that is shrinking cell phones has a higher purpose: an exhaust-free electric car."

Uh huh. Like the T Zero? Again, the site has changed, and I now can't find mention of the technologies, but from memory, it's either 300kg of lead acids (shorter range or quicker death from deep discharges) or nickel metal hydrides (landfill ahoy) with quoted replacement costs and times of $3000 and 3 years for the lead-acids. Yes, that's 100kg of lead, acid and plastic to be recycled every year for every vehicle, or about half a pound (and $2.75) a day. OK, it can be recycled, and the problem is concentrated rather than distributed. But it's a lot of nastiness to deal with, and remember that rules only apply to nice middle income people. Scurrilous low income types are just going to abandon their twenty year old wrecks (complete with 200kg of lead) in the nearest ditch, street corner, or even front yard. We'd better be prepared to treat these things as environmental time bombs and have policies in place to collect and recycle them, with or without the owner's consent. Designing in a large recycling burden just makes less sense than investing in a clean and long lived internal power source.

I think that the intro sums it up: the problem is chemistry. There's only so much energy you can store in a sealed unit. If we want significant energy density from a renewable source and no ongoing recycling nightmare, then we have to go to hydrogen cells or even good old fashioned alcohol burners. Sealed cell technology is not the long term answer to our energy needs, and we can't just blame the manufacturers for that, seeing as how it's us that keeps buying their products by the billion then (mostly) throwing them in the trash.

Re:Good battery charger

[complex]

the maha mh-c204f. you can read about it at thomas distributing.

i have this charger, and use it with ni-cds and ni-mhs, and it works great. really saves money. i use nimhs in my discman and my palm, and soon in my minidisc player. i highly recommend both the charger and thomas dist.

complex