Green Car Congress

MAY 4, 2023

Twelve has developed an efficient polymer-electrolyte membrane (PEM) CO 2 electrolyzer that uses proprietary CO 2 -reducing catalysts to split CO 2 with just water and renewable electricity as inputs, syngas (CO and hydrogen) as the output, and pure oxygen as the only byproduct. Earlier post.)

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Fuel Production Alaska Carbon 199

Green Car Congress

SEPTEMBER 3, 2020

The US Department of Energy (DOE) announced the award of approximately $72 million in federal funding to support the development and advancement of carbon capture technologies under two funding opportunity announcements (FOAs). Enabling Production of Low Carbon Emissions Steel Through CO 2 Capture from Blast Furnace Gases.

Carbon 236

Carbon Coal Gas-Electric Gas 236

Green Car Congress

JULY 15, 2022

Through the first-of-its-kind agreement, Twelve, Alaska, and Microsoft will work to advance production and use of Twelve’s E-Jet, a low-carbon jet fuel produced by a power-to-liquids process leveraging the company’s carbon transformation technology. Earlier post.). SAF is a core part of Alaska’s five-part pathway to net zero by 2040.

Alaska 221

Alaska Renewable Fuel CO2 221

Green Car Congress

FEBRUARY 1, 2019

The parties are willing to discuss collaboration opportunities in low-carbon products and renewable energies development.

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Renewable Indonesia Carbon Production 230

Green Car Congress

FEBRUARY 15, 2020

A team of researchers from Canada and the US has developed a system that quickly and efficiently converts carbon dioxide into simple chemicals via CO 2 electrolysis. The electrode architecture enables production of two-carbon products such as ethylene and ethanol at current densities just over an ampere per square centimeter.

CO2 414

CO2 Production Polymer Water 414

Green Car Congress

JUNE 8, 2016

Currently, carbon fiber (CF) reinforced polymer (CFRP) composites are used to make COPVs. COPVs designed to store hydrogen gas at pressures up to 700 bar are being deployed in fuel cell electric vehicles (FCEVs) currently available on the market. Type III COPVs have a metallic liner and Type IV COPVs have non-metallic liners.

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Hydrogen Polymer Vehicles Carbon Fiber 150

Green Car Congress

JUNE 6, 2014

million for 12–24 month projects with industry and academia ( DE-FOA-0000966 ) in support of innovations in fuel cell and hydrogen fuel technologies. Cathode PGM-free catalyst approaches should exclude the development of carbon-nitrogen complex based catalysts. Earlier post.). These include forecourt technologies (e.g.,

Hydrogen 231

Hydrogen Fuel Polymer Renewable 231

Green Car Congress

APRIL 28, 2020

When the nickel catalyst of ceramic fuel cells is used with hydrocarbon fuels, such as methane, propane, and butane, the carbon generated during fuel conversion is deposited on the surface of nickel. This worsens seriously as the temperature lowers, leading to the failure of the cell operation.

Fuel 392

Fuel Gas Conversion Convert 392

Green Car Congress

OCTOBER 24, 2016

The Energy Department (DOE) recently announced $10 million, subject to appropriations, to support the launch of the HydroGEN Advanced Water Splitting Materials Consortium ( HydroGEN ). Currently, the Office of Energy Efficiency and Renewable Energy (EERE) funds research and development of low-carbon hydrogen production pathways.

Water 150

Water Hydrogen Production Green 150

Green Car Congress

OCTOBER 7, 2016

Researchers at The University of Texas at Arlington have been the first to demonstrate that polyaniline (PANI), a member of the organic conducting polymer family, is a promising photocathode material for the conversion of carbon dioxide into alcohol fuels without the need for a co-catalyst.

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Arlington Polymer CO2 Solar 199

Green Car Congress

JUNE 13, 2018

Using special microbes, LanzaTech has developed a technology for gas fermentation that first enables ethanol to be produced from residual gases containing carbon monoxide and hydrogen. By re-using waste streams instead of incinerating them, industrial companies can reduce carbon dioxide emissions. Earlier post.) Earlier post.)

Waste 223

Waste Carbon Polymer Convert 223

Green Car Congress

JUNE 9, 2017

VTT Technical Research Centre of Finland and Lappeenranta University of Technology (LUT) are beginning testing of the Soletair demo plant, which uses air-captured carbon dioxide to produce renewable fuels and chemicals. Phase 2: Hydrogen production. Proton exchange membrane (PEM) water electrolysis is used for hydrogen production.

Renewable 244

Renewable Fuel CO2 Hydrogen 244

Green Car Congress

OCTOBER 9, 2014

The following Stanford faculty members received funding for advanced research on photovoltaics, battery technologies and new catalysts for sustainable fuels: Self-healing polymers for high energy density lithium-ion batteries. Maximizing solar-to-fuel conversion efficiency in photo-electrochemical cells. Light trapping in high?efficiency,

Renewable 225

Renewable Solar Zinc Air Energy 225

Green Car Congress

AUGUST 22, 2019

The complete Blue World system includes the fuel cell stack, the methanol reformer, heat-exchanger, power conversion units and a set of power and operation controllers, and balance of plant. The Dapozol MEA is optimized for operating temperatures of 120-200°C, high carbon monoxide concentrations and no requirements for humidification.

Fuel 317

Fuel Power Powered Vehicles 317

Green Car Congress

NOVEMBER 23, 2011

and LanzaTech Ltd, two industrial biology companies, have begun a feasibility study to examine whether Global Bioenergies’ artificial isobutene pathway ( earlier post ), can be functionally transferred into LanzaTech’s carbon monoxide-using organism ( earlier post ). Global Bioenergies S.A. Earlier post.). Jennifer Holmgren, LanzaTech CEO.

Carbon 199

Carbon Global Waste New Zealand 199

Green Car Congress

OCTOBER 17, 2012

In a presentation at the 1 st Conference on CO 2 as Feedstock , held last week in Essen, Germany, LanzaTech CSO Dr. In 2011, LanzaTech announced that it had demonstrated the continuous fermentation of CO 2 in the presence of hydrogen to acetic acid, using their modified microorganisms. The hydrogen serves as the energy source in this case.

Parts 244

Parts CO2 Renewable Conversion 244

Green Car Congress

MARCH 3, 2014

Scientists from Stanford University, SLAC National Accelerator Laboratory and the Technical University of Denmark have identified a new nickel-gallium catalyst that converts hydrogen and carbon dioxide into methanol at ambient pressure and with fewer side-products than the conventional catalyst.

Low Cost 257

Low Cost Clean Cleaning Production 257

Green Car Congress

MARCH 26, 2021

It addresses the need to convert biocrude, a mixture of carbon-based polymers, into biofuels. Biowaste to biofuel conversion process. The milestone was first described at a virtual conference organized by NextGenRoadFuels, a European consortium funded by the EU Framework Programme for Research and Innovation.

Diesel 332

Diesel Waste Convert Washington 332

Green Car Congress

MARCH 3, 2015

The US Department of Energy (DOE) announced ( DOE-FOA-0001224 ) up to $35 million in available funding to advance fuel cell and hydrogen technologies, and to enable early adoption of fuel cell applications, such as light duty fuel cell electric vehicles (FCEVs). Subtopics include Microbial Biomass Conversion. Earlier post.).

Hydrogen 150

Hydrogen Fuel Range Hybrid 150

Green Car Congress

MARCH 12, 2019

An adult passalid burrows its one-inch body through decayed wood that has been pre-processed by fungi, speeding up wood decomposition through its feeding activity and making the wood and carbon accessible for other organisms in the ecosystem. —Jennifer Pett-Ridge, a Lawrence Livermore National Lab biogeochemist and a co-author.

Production 255

Production Fuel South Carolina Hydrogen 255

Green Car Congress

APRIL 6, 2018

Researchers at Northwestern University have developed a new approach for creating new catalysts to aid in clean energy conversion and storage. In this study, researchers looked at the challenges of improving affordability and catalyst efficiency in the conversion and storage of clean energy. —Huang et al. —Huang et al.

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Design Chad Polymer Conversion 191

Green Car Congress

NOVEMBER 16, 2015

Among the many topics listed are magnetocaloric materials development for hydrogen delivery; two hydrogen technology transfer opportunities (TTO); EV traction batteries and power electronics; new combustion engine technologies; and the co-utilization of CO 2 and methane in biogas to produce higher hydrocarbon fuels.

Hydrogen 150

Hydrogen Engine Fuel Electric Vehicles 150

Green Car Congress

MARCH 10, 2016

Researchers at Stanford University have devised a new strategy for using CO 2 in the synthesis of multi-carbon compounds. CO 2 reacts readily with carbon-centered nucleophiles—a chemical intermediate species that donates an electron pair to an electrophile to form a chemical bond in relation to a reaction.

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Molten Salt Carbon CO2 Fuel 150

Green Car Congress

AUGUST 2, 2009

PEM fuel cells are good examples of energy conversion systems that have several levels of interacting functional structures. Polymer electrolyte membrane (PEM) fuel cells employ a hydrophobic polymer, functionalized by acidic sidechains, as the electrode separator. Promislow and Wetton.

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Conversion Fuel Energy Polymer 150

Green Car Congress

MAY 7, 2019

Anellotech’s core technology, Thermal Catalytic Biomass Conversion (Bio-TCat) was developed to produce chemicals and fuels from renewable, non-food biomass. Cellulosic ethanol or hydrogen can be made from Bio-TCat’s carbon monoxide co-product by using third-party technology.

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Commercial Massachusetts Renewable Carbon 207

Green Car Congress

DECEMBER 4, 2017

The technologies developed in this project will utilize shale gas as feedstock to produce aromatics, C 2 -C 4 olefins and hydrogen, which are key chemical intermediates for polymers and specialty chemicals. He noted that microwave upgrading of fossil fuels has been an active research area at NETL.

Gas 150

Gas West Virginia Production Market 150

Green Car Congress

NOVEMBER 26, 2010

Pyrolysis bio-oils are produced by the thermal decomposition of biomass by heating in the absence of oxygen at more than 500 °C; fast pyrolysis of biomass is much less expensive than biomass conversion technologies based on gasification or fermentation processes. earlier post.).

Oil 225

Oil Convert Hydrogen Fuel 225

Green Car Congress

AUGUST 19, 2023

The US Department of Energy (DOE) awarded nearly $34 million to 19 industry- and university-led research projects that will advance technology solutions to make clean hydrogen a more available and affordable fuel for electricity generation, industrial decarbonization, and transportation. Earlier post.)

Hydrogen 150

Hydrogen Clean Cleaning Gas-Electric 150

Green Car Congress

NOVEMBER 16, 2018

If successful, the proposed technology will offer light- and heavy-duty vehicle manufacturers a cost-effective solution to improve vehicle fuel efficiency and reduce transportation carbon dioxide (CO 2 ) emissions. Novel Polymer-enhanced Rechargeable Aluminum-Alkaline Battery Technology – $2,000,000. Ionic Materials, Inc.

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Engine San Diego Polymer Lithium Ion 247

Green Car Congress

MAY 15, 2021

The US Department of Energy (DOE) is awarding $35 million to 15 research projects through ARPA-E’s “Energy and Carbon Optimized Synthesis for the Bioeconomy” (ECOSynBio) program to decarbonize biorefining processes used across the energy, transportation, and agriculture sectors. Carbon-Negative Chemical Production Platform - $4,160,262.57.

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Carbon Production Conversion Universal 303

Green Car Congress

APRIL 30, 2010

ARPA-E’s first solicitation awarded $151 million to 37 projects aimed at transformational innovations in energy storage, biofuels, carbon capture, renewable power, building efficiency, vehicles, and other areas. Novel Biological Conversion of Hydrogen and Carbon Dioxide Directly into Biodiesel. Earlier post.) per gallon.

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Carbon Batteries Battery Li-ion 249

Green Car Congress

APRIL 21, 2011

A) Mixing of high–surface area carbon with aniline oligomers and transition-metal precursor (M: Fe and/or Co). (B) Their approach uses polyaniline (PANI) as a precursor to a carbon-nitrogen template for high-temperature synthesis of catalysts incorporating iron and cobalt. Schematic diagram of the synthesis of PANI-M-C catalysts. (A)

Fuel 255

Fuel Hydrogen Carbon Conversion 255

Green Car Congress

JULY 8, 2015

million in Carbon Recycling International (CRI). Geely’s CRI investment and work with renewable methanol is similar to the approach Audi is taking with its own e-fuels projects—producing very low carbon liquid or gaseous fuels using only renewable energy, water and CO 2. —Li Shufu, Chairman of Geely Group. Earlier post.).

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Renewable Carbon Water Fuel 150

Green Car Congress

MARCH 14, 2017

Biomass conversion is one of the most affordable routes to generate sustainable H 2 , but this process requires the demanding chemical transformation of lignocellulose. In the interest of increasing the selectivity and efficiency of this conversion, it is possible to replace the thermal input with sunlight.

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Light Solar Conversion Hydrogen 236

Green Car Congress

APRIL 22, 2011

The catalyst enables the selective hydrogenolysis of aromatic carbon-oxygen (C-O) bonds under mild conditions. This would break down lignin—a recalcitrant biomass polymer that consists of a network of nine hydrocarbon units connected by C-O bonds. A paper on their work is published in the current issue of Science. Science Vol.

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Fuel Production Hydrogen Coal 218

Green Car Congress

JULY 27, 2015

Current topics of interest include: Biomass Conversion, Biofuels & Bioenergy. Fundamental research on innovative approaches that lead to the intensification of biofuel and bioenergy processes is an emphasis area of this program. Photovoltaic (PV) Solar Energy.

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Nickel Metal Hydride Fuel Engine Production 150

Green Car Congress

SEPTEMBER 17, 2012

The Precourt Institute for Energy, the umbrella organization for energy research and education at Stanford, will fund the following four studies: Nanostructured Polymers for High-Performance Batteries. This project explores the use of specially designed nanostructured polymers to make high-energy, low-cost, flexible and stretchable batteries.

Energy 239

Energy Vehicles Power Powered 239