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Related: About this forumNew concept turns battery technology upside-down
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A new concept for a flow battery functions like an old hourglass or egg timer, with particles (in this case carried as a slurry) flowing through a narrow opening from one tank to another. The flow can then be reversed by turning the device over.
Image courtesy of the researchers.
[font size=5]New concept turns battery technology upside-down[/font]
[font size=4]Pump-free design for flow battery could offer advantages in cost and simplicity.[/font]
David L. Chandler | MIT News Office
May 25, 2016
[font size=3]A new approach to the design of a liquid battery, using a passive, gravity-fed arrangement similar to an old-fashioned hourglass, could offer great advantages due to the systems low cost and the simplicity of its design and operation, says a team of MIT researchers who have made a demonstration version of the new battery.
Liquid flow batteries in which the positive and negative electrodes are each in liquid form and separated by a membrane are not a new concept, and some members of this research team unveiled an earlier concept three years ago. The basic technology can use a variety of chemical formulations, including the same chemical compounds found in todays lithium-ion batteries. In this case, key components are not solid slabs that remain in place for the life of the battery, but rather tiny particles that can be carried along in a liquid slurry. Increasing storage capacity simply requires bigger tanks to hold the slurry.
But all previous versions of liquid batteries have relied on complex systems of tanks, valves, and pumps, adding to the cost and providing multiple opportunities for possible leaks and failures.
The new version, which substitutes a simple gravity feed for the pump system, eliminates that complexity. The rate of energy production can be adjusted simply by changing the angle of the device, thus speeding up or slowing down the rate of flow. The concept is described in a paper in the journal Energy and Environmental Science, co-authored by Kyocera Professor of Ceramics Yet-Ming Chiang, Pappalardo Professor of Mechanical Engineering Alexander Slocum, School of Engineering Professor of Teaching Innovation Gareth McKinley, and POSCO Professor of Materials Science and Engineering W. Craig Carter, as well as postdoc Xinwei Chen, graduate student Brandon Hopkins, and four others.
[/font][/font]
A new concept for a flow battery functions like an old hourglass or egg timer, with particles (in this case carried as a slurry) flowing through a narrow opening from one tank to another. The flow can then be reversed by turning the device over.
Image courtesy of the researchers.
[font size=5]New concept turns battery technology upside-down[/font]
[font size=4]Pump-free design for flow battery could offer advantages in cost and simplicity.[/font]
David L. Chandler | MIT News Office
May 25, 2016
[font size=3]A new approach to the design of a liquid battery, using a passive, gravity-fed arrangement similar to an old-fashioned hourglass, could offer great advantages due to the systems low cost and the simplicity of its design and operation, says a team of MIT researchers who have made a demonstration version of the new battery.
Liquid flow batteries in which the positive and negative electrodes are each in liquid form and separated by a membrane are not a new concept, and some members of this research team unveiled an earlier concept three years ago. The basic technology can use a variety of chemical formulations, including the same chemical compounds found in todays lithium-ion batteries. In this case, key components are not solid slabs that remain in place for the life of the battery, but rather tiny particles that can be carried along in a liquid slurry. Increasing storage capacity simply requires bigger tanks to hold the slurry.
But all previous versions of liquid batteries have relied on complex systems of tanks, valves, and pumps, adding to the cost and providing multiple opportunities for possible leaks and failures.
The new version, which substitutes a simple gravity feed for the pump system, eliminates that complexity. The rate of energy production can be adjusted simply by changing the angle of the device, thus speeding up or slowing down the rate of flow. The concept is described in a paper in the journal Energy and Environmental Science, co-authored by Kyocera Professor of Ceramics Yet-Ming Chiang, Pappalardo Professor of Mechanical Engineering Alexander Slocum, School of Engineering Professor of Teaching Innovation Gareth McKinley, and POSCO Professor of Materials Science and Engineering W. Craig Carter, as well as postdoc Xinwei Chen, graduate student Brandon Hopkins, and four others.
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New concept turns battery technology upside-down (Original Post)
OKIsItJustMe
May 2016
OP
StevieM
(10,500 posts)1. Here is a link to the full article.
I think you forgot to give the link in your post.
http://news.mit.edu/2016/new-concept-turns-battery-technology-upside-down-0525
OKIsItJustMe
(19,940 posts)2. So I did
Thanks!