A battery of liquid metal in the future could reduce the need for new power plants, said a U.S. scientist at the TED conference on innovation, which takes place today in Long Beach, California (west).
"As things stand, the demand for electricity must be in constant balance with supply," said Thursday engineering professor Donald Sadoway, using an old chalk board to write down the formula for this battery. According to Sadoway, cheap batteries made of liquid metal could store electricity generated by solar panels, wind farms or facilities to generate and save it for when it is needed. That would be a significant change in the system current consumption.
"The battery is a device that would allow it," said Sadoway."With it we can draw electricity from the sun, even when the sun does not shine." Sadoway and his team of students from Massachusetts Institute of Technology (MIT) are so sure of his idea that created the Corporation for Liquid Metal Battery and plan to have models of size on a restaurant table in two years.
Microsoft co-founder Bill Gates is one of the sponsors of the company. The company plans to eventually bring to market a liquid battery the size of a container of 40 feet, able to carry enough electricity to meet the daily needs of 200 homes typical of the United States.
"You could have these batteries in the basements of buildings," said Sadoway. "That means we do not build more plants and power lines only for use in the rush hour," he continued. The main metals in the battery are common vanadium and magnesium, said the teacher, writing a basic chemical equation on the board. The TED conference (Technology, Entertainment and Design) includes a series of presentations of cutting edge ideas. Speakers have 18 minutes to tell his proposal.
“The electricity powering the lights in this theater was generated just moments ago,” says MIT professor, Donald Sadoway, now on stage at TED2012 to talk power. “The way things stand, electricity demand must be in balance with electricity supply.” The problem is: coal and nuclear plants can’t address demand fast enough. How do we deal with the problem of intermittency?
Sadoway thinks he has the answer, and in this hugely well-received talk, he outlines his invention of a liquid metal battery he thinks might act as a blueprint for the future. “If we’re going to get this country out of its current energy situation, we can’t conserve our way out, we can’t drill our way out, we can’t bomb our way out. We’re going to do it the old-fashioned American way: we’re going to invent our way out, working together,” he says to whoops of applause.
Realizing the critical importance of the humble battery as a way to help with the energy crisis — and that, nonetheless, there is simply “no battery technology capable of meeting the demanding performance requirements of the grid,” Sadoway started to think differently. “We need to abandon the paradigm of chasing the coolest chemistry to chase down the cost curve by making lots of products,” he says. Instead, he wanted to invent to the pricepoint of the electricity market. ”If you want to make something dirt-cheap, make it out of dirt. Preferably dirt that’s locally sourced.” He also decided to be seemingly perverse in his hunt for potential electricity storage, looking at a source that neither generates nor stores electricity but in fact consumes huge amounts of it: aluminum production.
And that’s how and why he discovered a way to sandwich necessary salts with both high- and low-density metals to harness the potential of aluminum smelting in the name of creating an electricity storage device. He didn’t necessarily think it would work — nor did any of his students, those he gathered to share in his “passion for science in the service of society, not science in service of career building.” Cutely, he paraphrases JFK at Rice University in 1962: “we choose to work on gridlevel storage not because it is easy but because it is hard.”
Yet, to date they have enjoyed some serious success, and have already developed various liquid batteries, from the “shotglass” up to the 16-inch “pizza”, which produces one kilowatt-hour of energy. The 36-inch-wide “Bistro Table” is not yet ready for prime time, but a future variant is designed to produce the daily electrical needs of 200 American households with a battery that is “silent, emissions free, has no moving parts, is remotely controlled, and is designed to the market price point, without subsidy.” Cue applause
Sadoway thinks he has the answer, and in this hugely well-received talk, he outlines his invention of a liquid metal battery he thinks might act as a blueprint for the future. “If we’re going to get this country out of its current energy situation, we can’t conserve our way out, we can’t drill our way out, we can’t bomb our way out. We’re going to do it the old-fashioned American way: we’re going to invent our way out, working together,” he says to whoops of applause.
Realizing the critical importance of the humble battery as a way to help with the energy crisis — and that, nonetheless, there is simply “no battery technology capable of meeting the demanding performance requirements of the grid,” Sadoway started to think differently. “We need to abandon the paradigm of chasing the coolest chemistry to chase down the cost curve by making lots of products,” he says. Instead, he wanted to invent to the pricepoint of the electricity market. ”If you want to make something dirt-cheap, make it out of dirt. Preferably dirt that’s locally sourced.” He also decided to be seemingly perverse in his hunt for potential electricity storage, looking at a source that neither generates nor stores electricity but in fact consumes huge amounts of it: aluminum production.
And that’s how and why he discovered a way to sandwich necessary salts with both high- and low-density metals to harness the potential of aluminum smelting in the name of creating an electricity storage device. He didn’t necessarily think it would work — nor did any of his students, those he gathered to share in his “passion for science in the service of society, not science in service of career building.” Cutely, he paraphrases JFK at Rice University in 1962: “we choose to work on gridlevel storage not because it is easy but because it is hard.”
Yet, to date they have enjoyed some serious success, and have already developed various liquid batteries, from the “shotglass” up to the 16-inch “pizza”, which produces one kilowatt-hour of energy. The 36-inch-wide “Bistro Table” is not yet ready for prime time, but a future variant is designed to produce the daily electrical needs of 200 American households with a battery that is “silent, emissions free, has no moving parts, is remotely controlled, and is designed to the market price point, without subsidy.” Cue applause
This content was originally published by Journal TRADE .
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