Battery, Grid, Low Cost and MIT

MIT team improves liquid metal batteries for grid-scale storage; lower operating temperature, cost

Green Car Congress

SEPTEMBER 22, 2014

Researchers at MIT have improved a proposed liquid battery system that could enable renewable energy sources to compete with conventional power plants. The original system, which used magnesium for one of the battery’s electrodes and antimony for the other, required an operating temperature of 700 ?C. Earlier post.).

MIT

MIT Grid Batteries Battery

Liquid Metal Battery Corp secures patent rights from MIT

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JULY 7, 2011

Liquid Metal Battery Corporation (LMBC), a Cambridge, Massachusetts company founded in 2010 to develop new forms of electric storage batteries that work in large, grid-scale applications, has secured the rights to key patent technology from MIT. Patents for all liquid metal battery inventions were licensed from MIT.

MIT

MIT Batteries Battery Energy Storage

Total Signs Research Agreement with MIT to Develop New Stationary Batteries for Solar Power; Smaller-Scale Version of All-Liquid Metal Battery Work Supported by ARPA-E

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NOVEMBER 20, 2009

Total has signed a research agreement with the Massachusetts Institute of Technology (MIT) to develop new stationary batteries that are designed to enable the storage of solar power. This agreement valued at $4 million over five years is part of the MIT Energy Initiative (MITEI), which Total joined as a member in November 2008.

MIT

MIT Solar Batteries Battery

Rechargeable membrane-less hydrogen bromine flow battery shows high power density

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AUGUST 16, 2013

MIT researchers have engineered a new rechargeable, membrane-less hydrogen bromine laminar flow battery with high power density. For applications that require the storage of large quantities of energy economically and efficiently, flow batteries have received renewed attention. Credit: Braff et al. Click to enlarge.

Recharge

Recharge Hydrogen Power Powered

MIT team develops first supercapacitor made entirely from neat MOFs, without conductive additives or binders

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OCTOBER 11, 2016

Researchers at MIT have shown that a MOF (metal-organic framework) with high electrical conductivity—Ni 3 (2,3,6,7,10,11-hexaiminotriphenylene) 2 (Ni 3 (HITP) 2 )—can serve as the sole electrode material in a supercapacitor. We have a new material to work with, and we haven’t optimized it at all. —Mircea Dincă.

MIT

MIT Carbon Belgium Universal

New Lithium rechargeable semi-solid flow cell offers energy densities an order of magnitude greater than previous flow batteries; possible applications in transportation and grid-scale storage

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MAY 26, 2011

The new semi-solid flow cells, which can use established lithium intercalation compounds, could deliver energy densities of 300–500 Wh L -1 (specific energy of 130–250 Wh kg -1 ) at system-level costs, depending upon the chemistries, of $250 kWh -1 and $100 kWh -1 for transportation and grid level storage, respectively, the researchers conclude.

Li-ion

Li-ion Recharge Grid Lithium Ion

MITEI releases report on Electrification of the Transportation System

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JANUARY 13, 2011

The MIT Energy Initiative (MITEI) has released a report on the proceedings—and papers that informed those proceedings—of the 8 April 2010 symposium on The Electrification of the Transportation System: Issues and Opportunities. The symposium was sponsored by the MIT Energy Initiative, together with Ormat, Hess, Cummins and Entergy.

Transportation

Transportation MIT Oil Prices Oil

24M emerges from stealth mode with new semi-solid Li-ion cell; <$100/kWh by 2020

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JUNE 22, 2015

Stealth-mode battery start-up 24M has introduced its new semi-solid lithium-ion cell. Together, our inventions achieve what lithium-ion has yet to do—meet the ultra-low cost targets of the grid and transportation industries. By 2020 our battery costs will be less than $100 a kilowatt-hour (kWh).

Li-ion

Li-ion Lithium Ion 2020 Batteries

Sadoway and MIT team demonstrate calcium-metal-based liquid metal battery

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MARCH 23, 2016

MIT professor Donald Sadoway and his team have demonstrated a long-cycle-life calcium-metal-based liquid-metal rechargeable battery for grid-scale energy storage, overcoming the problems that have precluded the use of the element: its high melting temperature, high reactivity and unfavorably high solubility in molten salts.

Molten Salt

Molten Salt MIT Batteries Battery

MIT team calls initial performance results of magnesium-antimony liquid metal battery “promising”

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JANUARY 23, 2012

Sectioned Mg||Sb liquid metal battery operated at 700 °C showing the three stratified liquid phases upon cooling to room temperature. Large-scale energy storage is poised to play a critical role in enhancing the stability, security, and reliability of tomorrow’s electrical power grid, including the support of intermittent renewable resources.

MIT

MIT Molten Salt Batteries Battery

ARPA-E awards $175M to 68 novel clean energy OPEN 2021 projects

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FEBRUARY 15, 2022

Specifically, the project will demonstrate a 50-kW capacitive wireless charging system with 150 kW/m 2 power transfer density and 95% efficiency, while meeting fringing-field safety standards and increasing grid reliability by minimizing power pulsations. Lithium- and Transition Metal-Free High-Energy Fast-Charging Batteries - $3,400,000.

Clean

Clean Cleaning Energy Li-ion

DOE ARPA-E awards $156M to projects to 60 projects to accelerate innovation in clean energy technologies

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SEPTEMBER 30, 2011

The new ARPA-E selections focus on accelerating innovations in clean technology while increasing US competitiveness in rare earth alternatives and breakthroughs in biofuels, thermal storage, grid controls, and solar power electronics. High Performance, Low Cost Superconducting Wires and Coils. National Renewable. Corporation).

Energy

Energy Clean Cleaning Grid

ARPA-E awards $130M to 66 “OPEN 2012” transformational energy technology projects

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NOVEMBER 28, 2012

sunlight through low-cost, plastic light-guiding sheets and then. regenerated in a reactor, similar to a battery. The Massachusetts Institute of Technology (MIT) will develop a. If successful, the new crop would have a lower cost of. Turbo-POx For Ultra Low-Cost Gasoline. The reactor delivers.

2012

2012 Energy Lithium Sulfur Conversion

How Carmakers Are Responding to the Plug-In Hybrid Opportunity

Tony Karrer Delicious EVdriven

APRIL 21, 2009

GM has announced plans for public sales in 2010, and almost every carmaker now says it will sell PHEVs or highway-speed battery electric vehicles (BEVs) sometime after 2010. Batteries not ready. Hyundai Partnering with Korean battery companies for hybrids. 2010 Prius designed to be manufactured with NiMH or Lithium batteries.

Plug-in

Plug-in Plug Hybrid PHEV

EV Driven

MIT team improves liquid metal batteries for grid-scale storage; lower operating temperature, cost

Liquid Metal Battery Corp secures patent rights from MIT

Total Signs Research Agreement with MIT to Develop New Stationary Batteries for Solar Power; Smaller-Scale Version of All-Liquid Metal Battery Work Supported by ARPA-E

Rechargeable membrane-less hydrogen bromine flow battery shows high power density

MIT team develops first supercapacitor made entirely from neat MOFs, without conductive additives or binders

New Lithium rechargeable semi-solid flow cell offers energy densities an order of magnitude greater than previous flow batteries; possible applications in transportation and grid-scale storage

MITEI releases report on Electrification of the Transportation System

24M emerges from stealth mode with new semi-solid Li-ion cell; <$100/kWh by 2020

Sadoway and MIT team demonstrate calcium-metal-based liquid metal battery

MIT team calls initial performance results of magnesium-antimony liquid metal battery “promising”

ARPA-E awards $175M to 68 novel clean energy OPEN 2021 projects

DOE ARPA-E awards $156M to projects to 60 projects to accelerate innovation in clean energy technologies

ARPA-E awards $130M to 66 “OPEN 2012” transformational energy technology projects

How Carmakers Are Responding to the Plug-In Hybrid Opportunity

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