Commercial, Sodium, Solar and Water

DOE awarding >$24M to 77 projects through Technology Commercialization Fund

Green Car Congress

JULY 10, 2019

The US Department of Energy (DOE) announced more than $24 million in funding for 77 projects supported by the Office of Technology Transitions (OTT) Technology Commercialization Fund (TCF). Commercializing 3D Printable Feedstocks for the Advanced Manufacturing of Energy Products, $300,000 MilliporeSigma, St. Petaluma, Calif.

Commercial

Commercial San Jose San Francisco San Diego

New liquid alloy electrode significantly lowers operating temperature of sodium-beta batteries; improved performance

Green Car Congress

AUGUST 1, 2014

Researchers at Pacific Northwest National Laboratory (PNNL) have devised an alloying strategy that enables sodium-beta batteries to operate at significantly lower temperatures. The new electrode enables sodium-beta batteries to last longer, helps streamline their manufacturing process and reduces the risk of accidental fire.

Sodium

Sodium Batteries Battery Energy Storage

Univ. of Texas researchers propose lithium- or sodium-water batteries as next generation of high-capacity battery technology; applicable for EVs and grid storage

Green Car Congress

APRIL 1, 2011

Example of a lithium-water rechargeable battery. Researchers at the University of Texas, including Dr. John Goodenough, are proposing a strategy for high-capacity next-generation alkali (lithium or sodium)-ion batteries using water-soluble redox couples as the cathode. The present sodium-sulfur battery operates above 300 °C.

Sodium

Sodium Water Li-ion Texas

Caltech engineers devise new thermochemical cycle for water splitting for H2; recyclable, non-toxic, non-corrosive and at lower temperatures

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JUNE 6, 2012

The thermochemical production of hydrogen and oxygen from water via a series of chemical reactions is of interest because it directly converts thermal energy into stored chemical energy (hydrogen and oxygen), and thus can take advantage of excess heat given off by other processes. —Xu et al. NaMnO 2 at 850 °C; Na + extraction from ?-NaMnO

Water

Water Davis Sodium Engine

Researchers convert atmospheric CO2 to carbon nanofibers and nanotubes for use as anodes in Li-ion and Na-ion batteries

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MARCH 3, 2016

Researchers from George Washington University and Vanderbilt University have demonstrated the conversion of atmospheric CO 2 into carbon nanofibers (CNFs) and carbon nanotubes (CNTs) for use as high-performance anodes in both lithium-ion and sodium-ion batteries. times above that of sodium-ion batteries with graphite electrodes.

Li-ion

Li-ion Carbon Convert Sodium

NSF to award $13M to projects focused on electrochemical and organic photovoltaic systems

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FEBRUARY 24, 2017

Advanced systems such as lithium-air, sodium-ion, as well as lithium-ion electrochemical energy storage are appropriate. Work on commercially available systems such as lead-acid and nickel-metal hydride batteries will not be considered by this program. Flow batteries for energy storage applications are also appropriate.

Nickel Metal Hydride

Nickel Metal Hydride Energy Storage Lead Acid Lithium Ion

Energy Harvesting for Wearable Technology Steps Up

Cars That Think

NOVEMBER 1, 2023

The best-known wearable energy-harvesting tech today is, of course, solar, which pulls down electrons from sunlight or ambient light. But solar is just the opening gambit. A backpack with a giant solar panel might work technically, but not in reality. volts for about 60 hours. Leveraging watch tech for…bisons?

Energy

Energy Solar Carbon Fiber Universal

Energy storage: the key to a decarbonised future

Setec Powerr

NOVEMBER 23, 2022

We are transitioning from fossil fuels to renewable energy sources such as wind and solar, and the use of energy storage is becoming more widespread. Others solid battery types are nickel-cadmium and sodium-sulphur, while zinc-air is emerging. So what exactly is energy storage? This article will answer your confusion.

Energy Storage

Energy Storage Molten Salt Energy Future

NSF to award $13M for fundamental engineering research on production of electricity and fuels

Green Car Congress

JULY 27, 2015

Photovoltaic (PV) Solar Energy. Advanced systems such as lithium-air, sodium-ion, as well as lithium-ion electrochemical energy storage are appropriate. Work on commercially available systems such as lead-acid and nickel-metal hydride batteries will not be considered by this program.

Nickel Metal Hydride

Nickel Metal Hydride Fuel Engine Production

NSF to award up to $13M for fundamental work on sustainable production of electricity and transportation fuels

Green Car Congress

APRIL 7, 2013

Photovoltaic Solar Energy. Solar photovoltaic (PV) devices harvest and convert sunlight directly to electricity. Advanced systems such as lithium-air, sodium-ion, as well as lithium-ion with new cathode chemistries are appropriate.

Nickel Metal Hydride

Nickel Metal Hydride Transportation Fuel Production

New nanoparticle copper compound cathode could enable low-cost, long-life and high-power potassium-ion batteries for grid storage

Green Car Congress

NOVEMBER 24, 2011

Short-term transients, including those related to wind and solar sources, present challenges to the electrical grid. To maximize the benefit of the open structure, the researchers needed to use ions that fit; hydrated potassium ions proved to be a much better fit compared with other hydrated ions such as sodium and lithium.

Low Cost

Low Cost Grid Power Powered

PARC building cleantech portfolio; co-extrusion printing of novel battery electrodes and carbon-neutral renewable liquid fuels from atmospheric CO2

Green Car Congress

MARCH 9, 2011

Scott Elrod, VP and Director of PARC’s Hardware Systems Laboratory (HSL) research organization also directs the Cleantech Innovation Program at PARC, which develops solutions for delivering affordable solar energy, increasing solar cell efficiency, purifying water, managing energy utilization, and producing renewable fuels.

Renewable

Renewable Carbon Fuel Building

CalSEED awards $4.2M to early-stage clean energy innovations

Green Car Congress

OCTOBER 15, 2020

Cyclonatix, Inc is developing an industrial-sized motor/controller to operate with either DC or AC power sources, for applications in electric vehicles, solar-powered pumps, HVAC&R, gas compressors, and other commercial and industrial machines which require high efficiency, variable speed/torque, and low cost. Leap Photovoltaics Inc.

Clean

Clean Cleaning Energy Solar

DOE Awarding $620M for Smart Grid Demonstration and Energy Storage Projects

Green Car Congress

NOVEMBER 25, 2009

Los Angeles Department of Water and Power. Center for the Commercialization of Electric Technologies (TX). This effort will build on Austin Energy’s existing Smart Grid programs by creating a microgrid that will initially link 1,000 residential smart meters, 75 commercial meters, and plug-in electric vehicle charging sites.

Energy Storage

Energy Storage Grid Energy Wind

ORNL advancing LDH sorbent to recover lithium from geothermal brine wastes

Green Car Congress

JANUARY 22, 2020

However, lithium is sourced almost exclusively from other countries, either concentrated using a solar evaporation process from natural brine sources or recovered from ore. These plants pump hot water from geothermal deposits and use it to generate electricity. Those brines can contain as much as 250 to 300 parts-per-million lithium.

Waste

Waste Water United States Davis

US DOE Issues Request for Information on Hydrogen and Fuel Cell Market Development; Reports to Congress on Program

Green Car Congress

FEBRUARY 5, 2009

Hydrogen produced by water electrolysis has the potential to be a useful means of storing excess electricity generated using wind, solar, and other intermittent renewable energy. Integrated renewable hydrogen systems and public-private community-based partnerships. per gge (assuming widespread deployment).

Congress

Congress Hydrogen Market Fuel

Can Flow Batteries Finally Beat Lithium?

Cars That Think

DECEMBER 24, 2023

There is only so much salt you can dissolve in a glass of water. Importantly, the nanofluids are engineered to remain suspended indefinitely, unlike other suspensions—for instance, sand in water. At the depot, the spent fuel could be recharged with electricity from any source—solar, wind, hydroelectric, nuclear, or fossil fuels.

Lithium Ion

Lithium Ion Batteries Battery Li-ion

MIT and Moscow State collaborating on advanced batteries, metal-air batteries and reversible fuel/electrolysis cells

Green Car Congress

APRIL 12, 2015

Other work focuses on sodium as an earth-abundant alternative to lithium, but while it could lower cost, sodium ions also carry just a single charge. Because solar and wind energy are intermittent, producing energy only when the sun shines or the wind blows, a method to capture and store energy for later use is needed.

MIT

MIT Li-ion Batteries Battery

ARPA-E Awards $151M to 37 Projects for Transformative Energy Research

Green Car Congress

OCTOBER 26, 2009

Direct Solar Fuels (5 projects). Water (1 project). Eagle Picher, in partnership with the Pacific Northwest National Laboratory, will develop a new generation of high energy, low cost planar liquid sodium beta batteries for grid scale electrical power storage applications. DIRECT SOLAR FUELS. Biomass Energy (5 projects).

Energy

Energy Grant Low Cost Li-ion

EV Driven

DOE awarding >$24M to 77 projects through Technology Commercialization Fund

New liquid alloy electrode significantly lowers operating temperature of sodium-beta batteries; improved performance

Univ. of Texas researchers propose lithium- or sodium-water batteries as next generation of high-capacity battery technology; applicable for EVs and grid storage

Caltech engineers devise new thermochemical cycle for water splitting for H2; recyclable, non-toxic, non-corrosive and at lower temperatures

Researchers convert atmospheric CO2 to carbon nanofibers and nanotubes for use as anodes in Li-ion and Na-ion batteries

NSF to award $13M to projects focused on electrochemical and organic photovoltaic systems

Energy Harvesting for Wearable Technology Steps Up

Energy storage: the key to a decarbonised future

NSF to award $13M for fundamental engineering research on production of electricity and fuels

NSF to award up to $13M for fundamental work on sustainable production of electricity and transportation fuels

New nanoparticle copper compound cathode could enable low-cost, long-life and high-power potassium-ion batteries for grid storage

PARC building cleantech portfolio; co-extrusion printing of novel battery electrodes and carbon-neutral renewable liquid fuels from atmospheric CO2

CalSEED awards $4.2M to early-stage clean energy innovations

DOE Awarding $620M for Smart Grid Demonstration and Energy Storage Projects

ORNL advancing LDH sorbent to recover lithium from geothermal brine wastes

US DOE Issues Request for Information on Hydrogen and Fuel Cell Market Development; Reports to Congress on Program

Can Flow Batteries Finally Beat Lithium?

MIT and Moscow State collaborating on advanced batteries, metal-air batteries and reversible fuel/electrolysis cells

ARPA-E Awards $151M to 37 Projects for Transformative Energy Research

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