Green Car Congress

SEPTEMBER 2, 2022

Polymer-based membranes developed at KAUST could enable greener and cheaper industrial separation approaches. The polytriazole membrane can enrich up to 80 to 95% of the hydrocarbon content with less than 10 carbon atoms (140 gram mole ?1 A paper on the work is published in Science.

Polymer 186

Polymer Oil Carbon Pollution 186

Green Car Congress

MARCH 4, 2022

Carbon transformation company Twelve and biotechnology company LanzaTech have transformed CO 2 emissions into ethanol as a part of an ongoing research and development partnership. Our process aims to rebalance the overabundance of carbon in our environment and instead reuse it for meaningful applications.

Convert 324

Convert CO2 Carbon Polymer 324

Green Car Congress

OCTOBER 25, 2020

PCC 6803 cells holding ethylene forming enzyme (Efe) from Pseudomonas syringae are entrapped within a natural polymer matrix, thus forming the thin-layer biocatalytic structure. The team optimized the production system by varying different parameters, such as radiance, inorganic carbon level, and periodicity of medium renewal.

Green 386

Green Production Polymer Conversion 386

Green Car Congress

MAY 10, 2018

Researchers at the University of Illinois have developed a new polymer-curing process that could reduce the cost, time and energy needed, compared with the current manufacturing process. The resulting polymer and composite parts possess similar mechanical properties to those cured conventionally. —Robertson et al. Lloyd, Leon M.

Polymer 186

Polymer Manufacturer Energy Illinois 186

Green Car Congress

MAY 21, 2015

Solvay Specialty Polymers introduced Veradel 3300 SL 30 polyethersulfone (PESU). The new Veradel grade is a tough, high-performance resin designed to meet growing global demand for advanced polymers that can improve automotive powertrain efficiency and reduce carbon emissions.

Polymer 150

Polymer F-150 Carbon Fiber Oil 150

Green Car Congress

OCTOBER 17, 2013

A composite blend of carbon fibers and polymer resin is being developed that can store and charge more energy faster than conventional batteries can. The material combines carbon fibers and a polymer resin, creating a very advanced nanomaterial, and structural supercapacitors. Click to enlarge. Click to enlarge.

Energy Storage 368

Energy Storage Volvo Carbon Fiber Energy 368

Green Car Congress

MARCH 10, 2018

Startup Mattershift says it has achieved a breakthrough in making carbon nanotube (CNT) membranes at large scale. The paper is a characterization study of commercial prototype carbon nanotube (CNT) membranes consisting of sub–1.27-nm-diameter A) SEM image of the CNT membrane surface, showing CNT tips emerging from the polymer.

Carbon 199

Carbon Fuel Polymer Austin 199

Green Car Congress

SEPTEMBER 30, 2020

Methane, the key component in natural gas, is usually just burned for heat, combining with oxygen in the atmosphere to form carbon dioxide, the predominant greenhouse gas. But methane is extremely inert in an oxygen-free environment and resists chemical reactions. Oxidation of methane also introduces impurities in the product stream.

Convert 395

Convert Hydrogen Gas Low Cost 395

Green Car Congress

FEBRUARY 1, 2019

Pertamina and Eni signed a Memorandum of Understanding to investigates synergies of their respective technologies, expertises and know-how, for jointly evaluating new collaboration opportunities in the areas of circular economy, driver for strategic development for Eni and its subsidiaries Syndial (Environment) and Versalis (Chemicals).

Renewable 230

Renewable Indonesia Carbon Production 230

Green Car Congress

NOVEMBER 28, 2015

A team at Toyota Research Institute of North America (TRINA) ( earlier post ) has developed a nanostructured sulfur cathode with a truffle-like architecture which comprises a sulfur particle embedded with hollow carbon nanospheres and encapsulated with an ion-selective, flexible layer-by-layer (LBL) nanomembrane decorated with conductive carbon.

Polymer 150

Polymer Li-ion Toyota Battery 150

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. Chevron USA.

Carbon 236

Carbon Coal Gas-Electric Gas 236

Innovation News Network

JULY 29, 2024

TUS is developing low-carbon, industrial-grade plastic packaging solutions to address the increasing issue of plastic waste. The post TUS pioneers industrial-grade, sustainable polymer solutions appeared first on Innovation News Network.

Polymer 122

Polymer Industry Industrial Waste 122

Green Car Congress

OCTOBER 20, 2009

Plants use different polymers in constructing cell walls, each with unique qualities essential for growth and survival. Suberin, the polymer analyzed in this study, is mostly located in the cell walls of seed and root systems. Liu also studies the biosynthesis of lignin, the polymer mostly responsible for strength in plant cell walls.

Environment 150

Environment Polymer Water Carbon 150

Green Car Congress

DECEMBER 31, 2012

Their approach, described in a paper published in the Journal of the American Chemical Society , creates composites based on lithium sulfide uniformly dispersed in a carbon host, which serve to sequester polysulfides. The cross-linked polymer was then treated at 100 °C for 48 h under vacuum to remove the DMF. Earlier post.)

Li-ion 257

Li-ion Lithium Ion Battery Batteries 257

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.) Engineering E. per gallon.

Carbon 249

Carbon Li-ion Battery Batteries 249

Green Car Congress

JULY 3, 2020

The three-member team used a membrane-electrode assembly in which the polymer bipolar membrane is compressed between two rigid porous electrodes, allowing them to make a large number of bipolar membranes with different water dissociation catalyst layers. —Sebastian Oener.

Oregon 284

Oregon Water Polymer Hydrogen 284

Green Car Congress

DECEMBER 17, 2013

In addition, all of the binders were converted into graphitic carbon, which should give the electrode much better durability in the electrochemical environment. The high ramp results in carbonization of the polymer matrix starting at ?450 a-b), Schematic of the electrode surface before and after FHT. (c-d),

Li-ion 294

Li-ion Battery Batteries Polymer 294

Green Car Congress

NOVEMBER 20, 2021

However, to be commercially viable, the process needs to be improved to yield a higher amount of desirable carbon-rich products. Our group has found that you can do various tricks with the local environment of the catalyst to provide that selectivity. earlier post ). Credit: Berkeley Lab).

CO2 221

CO2 Production Carbon Environment 221

Green Car Congress

JANUARY 27, 2014

Researchers in India have developed a relatively low-temperature process to convert low-density polyethylene (LDPE)—a common polymer used to make many types of container, medical and laboratory equipment, computer components and plastic bags—into liquid fuel over a kaolin catalyst. of Environment and Waste Management Vol.

Waste 218

Waste Convert Fuel Polymer 218

Green Car Congress

JUNE 20, 2011

Also, the biobased BDO pathway consumes carbon dioxide (CO 2 ), resulting in a reduction of 70% in CO 2 emissions. Furthermore, the Bio-BDO fermentation process operates near ambient pressure and temperature, thus providing a safer working environment. Greener reaction conditions: Kraton Performance Polymers, LLC, Houston, Texas.

Green 236

Green 2011 Market 2020 236

Green Car Congress

DECEMBER 10, 2014

The new plastic will help Mazda to reduce its impact on the environment in a number of ways. As the plastic is made from plant-derived materials, its adoption will help to curb the use of petroleum resources and reduce carbon dioxide emissions. Bio-polymers Materials'

Mazda 275

Mazda Parts Engine Polymer 275

Green Car Congress

SEPTEMBER 15, 2022

The transport sector is the fastest-growing greenhouse gas (GHG) emitting sector, expected to reach a share of more than 30% of total GHG emissions in the future, according to the United Nation’s Environment Programme. Hexpol TPE : Soft polymer compounds, TPE. Hydro: Zero-carbon aluminium. Sekab : Bio-based chemicals.

Climate 273

Climate Cars Emissions Supplies 273

Green Car Congress

NOVEMBER 1, 2012

Researchers from University of Rome Sapienza (Italy), Hanyang University (Korea) and the Argonne National Laboratory (US) have shown that the highly reactive lithium metal anode typically projected for use in Li-air batteries can be replaced with a lithiated silicon-carbon anode. carbon composite particles with a lithium foil.

Li-ion 306

Li-ion Battery Batteries Lithium Air 306

Green Car Congress

FEBRUARY 12, 2011

Drayson Racing and Aston University (UK) have launched a major partnership to develop and demonstrate low carbon automotive technologies. Aston’s Polymer, Bioenergy, Mechanical Engineering, Photonics and Computer Science research groups will all be working with Drayson Racing.

Universal 210

Universal Waste Cars Polymer 210

Green Car Congress

JUNE 19, 2022

The membranes are also advantageous for their low-carbon footprint properties and suitability to promote the circular carbon economy (CCE). I'm always looking for polymers that can take challenges that are not possible with a very simple membrane. A paper on the work is published in Science.

Oil 186

Oil Energy Polymer Carbon 186

Green Car Congress

OCTOBER 20, 2022

It has developed process technology and experience in producing lower carbon intensity, high performance, synthetic graphite targeting the electric vehicle and energy storage sectors. Solvay Specialty Polymers USA , Solvay Battery-Grade PVDF Manufacturing Facility, $178,218,568. Piedmont Lithium , Tennessee Lithium, $141,680,442.

Parts 459

Parts Battery Batteries Lithium Ion 459

Green Car Congress

OCTOBER 4, 2009

million the US Department of Energy recently awarded to carbon capture and storage research projects, $5.9 It is clear, that without displacement of a carbon intensive energy source, CO 2 -EOR systems will result in net carbon emissions. Tags: Carbon Capture and Storage (CCS) Lifecycle analysis Oil. Of the $21.6

Oil 186

Oil Carbon Emissions CO2 186

Green Car Congress

MARCH 29, 2012

These approaches apply equally to classical inorganic or carbon catalysts as well as to enzymatic or biocatalysts. Reactive processing of polymers, ceramics, and thin films. Reactive Polymer Processing. Modeling and Fundamental Studies of a Catalyst or Catalytic Process. Catalysts and Studies for Renewable Energy Systems.

Engine 225

Engine Polymer Design Renewable 225

Green Car Congress

JANUARY 14, 2012

The clean technology professional motorsport championship will include various categories and remain open to any OEMs desiring to showcase and develop their own green credentials in a cost-controlled environment. Carbon fibre monocoque chassis. Carbon fibre monocoque chassis. Lithium Polymer EIG (S. 450-700 bhp.

International 273

International 2013 Electric Vehicles Carbon Fiber 273

Green Car Congress

DECEMBER 13, 2016

With this glass, a rechargeable battery with a metallic lithium or sodium anode and an insertion-compound as cathode may require a polymer or liquid catholyte in contact with the cathode. Murchison and John B Goodenough (2016) “Alternative Strategy for a Safe Rechargeable Battery” Energy Environ. The electrolyte membrane was 0.06

Low Cost 287

Low Cost Recharge Austin Li-ion 287

Green Car Congress

MAY 16, 2016

Researchers from Hunan University and Changsha University in China have designed 3D hierarchical porous nitrogen-doped aligned carbon nanotubes (HPNACNTs) with well-directed 1D conductive electron paths as scaffold to load sulfur for use as a high-performance cathode in Li-S batteries. —Deng et al.

Carbon 150

Carbon Li-ion Lithium Sulfur Transportation 150

Green Car Congress

DECEMBER 17, 2016

The 16 REFUEL projects seek to develop scalable technologies for converting water and molecules from the air into energy-dense, carbon-neutral liquid fuels (CNLFs) using electrical energy from renewable sources. Renewable Electricity-Powered Carbon Dioxide Conversion to Ethanol for Storage and Transportation (Category 1) The Opus 12, Inc.

Carbon 186

Carbon Fuel Energy Hydrogen 186

Green Car Congress

FEBRUARY 23, 2011

White talked about his group’s research at the annual meeting of the American Association for the Advancement of Science (AAAS) as part of the “Pillars, Polymers, and Computers: Creative Approaches to Electrical Energy Storage” program. Once triggered, the microcapsules release their payload in order to affect performance.

Li-ion 240

Li-ion Illinois Concept Battery 240

Green Car Congress

MARCH 24, 2016

Researchers at the Department of Energy’s Oak Ridge National Laboratory have demonstrated a production method they estimate will reduce the cost of carbon fiber as much as 50% and the energy used in its production by more than 60%. Details of the cost analysis will be shared with the prospective licensees.

Carbon Fiber 150

Carbon Fiber Carbon Manufacturer Energy 150

Clean Fleet Report

OCTOBER 29, 2023

How Keeping Your Tires Inflated Can Help the Environment Basic Care Can Reduce Contamination Checking tire pressure is a subtle yet impactful way to care for the environment. They generally contain synthetic polymers, fossil fuel-based softeners and environmentally toxic additives. The flatter the tire, the more drag occurs.

Environment 98

Environment Waste Water Polymer 98

Green Car Congress

MARCH 1, 2016

In contrast, the CSHub researchers employed a novel small-scale experimental approach in which a rigid steel tire rolls along a polymer pavement while they measured the horizontal force required to move the tire forward at different speeds and with different loads.

MIT 240

MIT California Fuel Vehicles 240

Green Car Congress

JANUARY 11, 2019

surfactant, alkaline and polymer flooding). Carbon Dioxide miscible flooding is the most common EOR method, responsible for about 293,000 barrels per day of incremental US oil production in 2014. Thermal methods are the second most popular, accounting for about 285,000 barrels per day in 2014.

Oil 306

Oil Gas 2014 2017 306