“I sell here, Sir, what all the world desires to have – POWER”, Matthew Boulton. From the infancy of the industrial revolution where Matthew promoted his steam engine, we humans wanted to encapsulate power in our hands. In the early 1900s electric cars running on lead acid batteries vied with the early unreliable internal combustion engines. Now, 100 years later, we mostly use vehicles powered by internal combustion engines, but a few remaining vehicles, such as lift trucks and Kiva robots, are powered by lead acid batteries. Lead acid battery life is still an issue. For example, Kiva (now Amazon robotics) robots, require brand new batteries every year.
Modern electronics ratcheted up the demand for portable sources of electric power. When I used my HP45 calculator, the nickle cadmium cells in the battery pod drove most users nuts.
We enthusiastically adopted the convenience of laptops when the intersection of lower power usage computer chips coincided with lighter weight lithium battery development. Lithium batteries take advantage of the fact that lithium is the lightest metal. Unfortunately, all high density energy storage materials are a fire hazard. We have heard about lithium battery fires in laptops, planes and even Tesla cars. Our familiarity with normal cars causes us to forget that gasoline fires in cars are also very common. Most lithium battery makers are still focusing on electrode development in that battery life is still a frustration.
Based on a successful trial, Eos has just received third round funding for their grid scale zinc air battery. http://www.greentechmedia.com/articles/read/eos-raising-25m-to-build-megawatts-of-low-cost-grid-batteries They are working with Con Edison to replace coal fired peaking power plants with batteries. It takes a whole lot of batteries. In modern logistic fashion, they package their batteries with the control electronics in sea-land containers. A multitude of these containers equals a power plant. The Eos battery evolved from the zinc dry cell that every one knows. Hearing aid manufacturers needed an affordable light weight battery to create a comfortable unit. The design of the dry cell was evolved to gather one reaction agent from the air. Most people do not realize this is similar to a gasoline engine which burns 10 lbs of air for every one pound of gasoline. Gasoline engine cars would be heavy, like Tesla electrics (4000 lb vrs 2000 lb), if they also had to carry the air that is burned. Eos evolved the zinc air battery further to create a rechargeable battery with a long life. This innovation cut the cost of storing electrical energy in batteries by 50 percent. Most of the electrical vehicle manufactures have taken notice and it would not surprise me if all electric vehicle manufacturers use zinc air for some portion of their batteries.
Batteries are encapsulating power in our hands. The cordless drills, shavers, weed eaters, vacuums, lawn mowers, snow blowers that we enjoy, are just the spin off benefits.