Green Car Congress

OCTOBER 10, 2021

The Clean Carbon Conductors team, with members from Rice University and DexMat Co, is designing enhanced-conductivity CNTs by improving fiber quality, alignment, packing density, and by electrochemically doping the CNTs.

Manufacturer 320

Manufacturer Carbon Fiber Carbon Affordable 320

Green Car Congress

NOVEMBER 15, 2021

jointly announced that, toward the achievement of carbon neutrality, they will take on the challenge of expanding fuel options through the use of internal combustion engines at the (three-hour) Super Taikyu Race in Okayama on 13-14 November. Participating in races using carbon-neutral fuels. Kawasaki Heavy Industries, Ltd.,

Mazda 387

Mazda Hydrogen Toyota Transportation 387

Green Car Congress

JANUARY 16, 2015

Researchers from Nanjing Forestry University and the University of Maryland have designed high-performance microfibers by hybridizing two-dimensional (2D) graphene oxide (GO) nanosheets and one-dimensional (1D) nanofibrillated cellulose (NFC) fibers. —Li et al. (a) 2014.111.

Carbon Fiber 150

Carbon Fiber Li-ion Hybrid Carbon 150

Green Car Congress

FEBRUARY 24, 2023

Supported by a grant from the Niche Vehicle Network, supported by the Department for Transport and Innovate UK, the project will adapt the design of the Yamaha Tricity 300 to replace its combustion engine with a fully electric powertrain with fast-charging capability and a targeted 100 mile operating range.

Motorcycles 397

Motorcycles Fully Electric Concept Electric Motorcycles 397

Green Car Congress

AUGUST 10, 2011

This project will develop a new process that enables low-cost, domestic manufacturing of magnesium. This project will develop a novel low cost route to carbon fiber using a lignin/PAN hybrid precursor and carbon fiber conversion technologies leading to high performance, low-cost carbon fiber.

Carbon Fiber 268

Carbon Fiber Lithium Ion Li-ion Vehicles 268

Green Car Congress

APRIL 7, 2022

Ultimately, SpinLaunch’s Orbital Accelerator will accelerate a launch vehicle containing a satellite up to 5,000 miles per hour using a rotating carbon-fiber-arm within a 300-ft diameter steel vacuum chamber. After full review, NASA and SpinLaunch will publish all non-proprietary launch environment information from the test flight.

Low Cost 259

Low Cost Carbon Fiber New Mexico Google 259

Green Car Congress

MARCH 19, 2011

350 to 700 bar) storage vessels are constructed using expensive high-strength carbon fiber, such as Toray T700S, in a composite matrix as an overwrap to contain the stress. An example of a possible solution is using fibers with mechanical strengths matching or exceeding the properties of aerospace quality carbon fiber (e.g.

Hydrogen 210

Hydrogen Carbon Fiber Low Cost Carbon 210

Green Car Congress

OCTOBER 11, 2012

The 900-ton deckhouse—made almost exclusively using cored composite construction processes—provides an advanced structure to house the ship’s bridge, radars, antennas and intake/exhaust systems and is designed to provide a significantly smaller radar cross-section than any other ship in the current fleet.

Carbon 218

Carbon San Antonio Carbon Fiber Mariner 218

Green Car Congress

MARCH 7, 2013

Current state-of-the-art hydrogen storage vessels for fuel cell electric vehicles are cost prohibitive because of the necessary carbon fiber. This project will seek to reduce the cost of these vessels by 25% by using less expensive fibers in a graded construction of the vessel wall. Nextgen Aeronautics, Inc.

Hydrogen 218

Hydrogen Carbon Fiber Transportation Fuel 218

Green Car Congress

JANUARY 18, 2014

Sample topic areas that might address one or more of these barriers include: Novel cell, module or pack designs that significantly improve the thermal or safety performance, or significantly reduce the weight, volume, and cost of non? Carbon Fiber or Lightweight Materials. Most critical is the cost of the carbon fiber.

Carbon Fiber 252

Carbon Fiber Engine Battery Powered Fuel 252

Green Car Congress

NOVEMBER 17, 2014

Related to this, DOE seeks by 2020 to develop novel precursors and conversion processes capable of reducing the high-volume cost of high-strength carbon fiber by 25% from $13 per pound to ~$9 per pound. In FY 2014, one area of focus was low-cost, high-strength carbon fiber precursors and advanced tank designs.

Hydrogen 225

Hydrogen Carbon Fiber 2014 St. Louis 225

Green Car Congress

OCTOBER 31, 2013

In addition, the costs associated with high-pressure fast refueling adds to the overall costs associated with using hydrogen fuel cells. Therefore, to maximize the use of hydrogen as a zero-carbon fuel for fuel cells, advanced storage systems and technologies will be required, especially for automotive applications.

Carbon Fiber 218

Carbon Fiber Hydrogen 2017 Carbon 218

Green Car Congress

AUGUST 21, 2014

Unique S-cell design for reduction of inactive materials This project will develop a novel S-cell to reduce the inactive battery materials by 50%. Demonstration scale plasma oxidation of carbon fiber This project will scale up a carbon fiber oxidation technology that reduces energy consumption and oxidation time.

Engine 231

Engine Carbon Fiber Fuel Battery 231

Green Car Congress

AUGUST 27, 2020

The US Department of Energy announced $33 million in funding for 17 projects as part of the Advanced Research Projects Agency-Energy’s (ARPA-E) Aviation-class Synergistically Cooled Electric-motors with iNtegrated Drives (ASCEND) and Range Extenders for Electric Aviation with Low Carbon and High Efficiency (REEACH) programs.

Carbon 218

Carbon Hybrid Electric Electrical 218

Green Car Congress

JUNE 7, 2013

FCTO anticipates that the FOA may include the following Topic Areas: Topic Area 1: Reducing the Cost of Compressed Hydrogen Storage Systems. Topic 1 will focus on the development of complete, low-cost, compressed hydrogen storage systems. kWh when manufactured in high volume; and. Hydrogen Storage'

Hydrogen 199

Hydrogen Carbon Fiber Low Cost Power 199

Green Car Congress

OCTOBER 4, 2009

During his presentation at the recent California Air Resources Board (ARB) ZEV Technology Symposium, Tatsuaki Yokoyama, from Toyota Motor Engineering & Manufacturing North America, said that Toyota aimed to reduce the cost of fuel cell vehicles to 1/10 of the current level by design and materials improvement by commercialization in 2015.

2015 315

2015 Toyota Commercial Fuel 315

Green Car Congress

JULY 12, 2012

This comprehensive design will. lower pressure and cost while increasing the performance of. materials for low-pressure gas storage tanks using their computational screening tool. materials for low-pressure gas storage tanks using their computational screening tool. tanks at one fifth the cost. the fuel system.

Gas 225

Gas Eaton Low Cost Carbon Fiber 225

Green Car Congress

APRIL 28, 2013

Researchers at the Fraunhofer Institute for Integrated Circuits IIS are using an electric race car designed by electrical engineering students from the e-racing team at the Hochschule Esslingen University of Applied Sciences ( E.Stall ) as a platform to showcase novel solutions for electronic sensor and battery management systems.

Battery 271

Battery Batteries Carbon Fiber Italy 271

Green Car Congress

MARCH 23, 2012

DE-FOA-0000648 ) This funding will support the development of high-strength, lightweight carbon fiber composites and advanced steels and alloys that will help vehicle manufacturers improve the fuel economy of cars and trucks while maintaining and improving safety and performance.

Carbon Fiber 218

Carbon Fiber Vehicles Carbon Engine 218

Green Car Congress

JUNE 9, 2017

million for 30 new projects aimed at discovery and development of novel, low-cost materials necessary for hydrogen production and storage and for fuel cells onboard light-duty vehicles. Precursor Development for Low-Cost, High-Strength Carbon Fiber. Hydrogen Storage Materials Discovery. GreenWay Energy, LLC.

Hydrogen 170

Hydrogen Carbon Fiber Fuel Low Cost 170

Green Car Congress

MAY 14, 2013

Poor reliability is a problem for hydrogen compressors because current standards for their design assume prolonged operation at peak pressure—an operating regime that is not representative of the operating conditions to which forecourt hydrogen compressors are exposed.

Hydrogen 199

Hydrogen Cost Of Carbon Fiber Low Cost 199

Green Car Congress

DECEMBER 15, 2016

Cell Design/Integration including cell modeling, 1-Dimensional (1D) or 2- Dimensional (2D) Li ion conductor, and de-coupled the solid electrolyte interphase reactions. Integrated Computational Materials Engineering (ICME) Development of Low Cost Carbon Fiber for Lightweight Materials. Battery500 Seedling Projects.

Carbon Fiber 150

Carbon Fiber Low Cost Vehicles Li-ion 150

Green Car Congress

AUGUST 14, 2014

Development of Low-cost, High Strength Automotive Aluminum Sheet (Area of Interest 1). Integrated Computational Materials Engineering (ICME) Development of Carbon Fiber Composites for Lightweight Vehicles (Area of Interest 2). Description. Alcoa, Inc. Ford Motor Company. State University of New York. Liox Power.

Plug-in 299

Plug-in Li-ion Plug Vehicles 299

Green Car Congress

DECEMBER 16, 2010

The objective of this AOI is to accelerate the realization of lighter weight vehicle materials made from magnesium and carbon fiber capable of attaining 50% weight reduction of passenger vehicles. Subtopics include: Low-Cost Development of Magnesium. Development of Low-Cost Carbon Fiber.

Li-ion 231

Li-ion Carbon Fiber Vehicles Fuel Economy 231

Green Car Congress

JANUARY 4, 2020

Low-Cost Retrofit Kit for Integral Reciprocating Compressors to Reduce Emissions and Enhance Efficiency. The University of Oklahoma (Norman, OK) plans to develop, build, and validate a low-cost, field-installable, remotely-controlled natural gas compressor retrofit kit.

Gas 186

Gas Gas-Electric Carbon Fiber West Virginia 186

Green Car Congress

FEBRUARY 15, 2022

Synteris’ technology would substantially improve the design, manufacturability, and function of power modules used in electric vehicles, aircraft, and other applications. PCI) will demonstrate a fundamentally new solid oxide fuel cell (SOFC) architecture that permits a power dense, lightweight design ideal for transportation applications.

Energy 284

Energy Clean Cleaning Li-ion 284

Green Car Congress

JULY 12, 2017

Two projects will research, develop, and use integrated computation materials engineering (ICME) techniques to develop low cost carbon fiber from a variety of feedstocks and precursors that can be used to make carbon fiber with less energy and lower cost. University of Maryland: College Park.

Carbon Fiber 150

Carbon Fiber Li-ion Mercedes GM 150

Green Car Congress

JANUARY 22, 2014

Area Of Interest (AOI) 1: Development of Low-Cost, High-Strength Automotive Aluminum Sheet. This AOI is to address two major technical gaps in the performance of automotive aluminum alloys: Low strength among cost competitive automotive sheet alloys such as 5xxx and 6xxx series. Carbon Fiber Composite Targets.

Emissions 252

Emissions Vehicles Fuel Economy Carbon Fiber 252

Green Car Congress

SEPTEMBER 16, 2010

Materials Innovation Technologies will develop low cost carbon fiber composite manufacturing technology to address the need for cost-effective, high volume production, lighter-weight components for automobiles and other vehicles by designing, manufacturing and testing several target components.

Fuel 210

Fuel Energy Carbon Fiber Polymer 210

Green Car Congress

AUGUST 18, 2020

The project is to develop a cost-effective and efficient smart structural coating deposition system and advanced high-end technology tools to inspect and rehabilitate gas distribution pipelines. The designed polymer composite coating materials provide structural strength and facile processability with smart functionalities.

Parts 186

Parts San Diego Carbon Fiber Polymer 186

Green Car Congress

SEPTEMBER 11, 2017

Their electrode—metal-organic cuprous tetracyanoquino-dimethane (CuTCNQ) in a three-dimensional (3D) conductive carbon nanofibers (CNFs) network (CuTCNQ)—exhibits a capacity of 252 mAh g -1 at 0.1 C and highly reversible stability for 1200 cycles within the voltage range of 2.5 - 4.1

Sodium 191

Sodium Energy Battery Batteries 191

Green Car Congress

DECEMBER 11, 2018

For future market acceptance of hydrogen fuel cell vehicles or portable devices an efficient, low cost and practical hydrogen storage system and infrastructure suitable for all applications still needs to be developed. To achieve a driving range greater than 500 km in a fuel cell vehicle, about 5 kg of hydrogen is required.

Hydrogen 276

Hydrogen Energy Storage Carbon Fiber Store 276

Green Car Congress

SEPTEMBER 6, 2019

Williams Advanced Engineering showcased its latest low-carbon vehicle technologies at Cenex LCV2019 in the UK this week. The Williams design uses two different types of cell chemistry, arranged in two separate blocks within a module. Williams Advanced Engineering’s Adaptive Multi-Chem technology offers both.

Engine 191

Engine Battery Batteries Carbon Fiber 191

Green Car Congress

JUNE 28, 2011

NETL scientists believe that metallic Mg or its alloys should be feasible candidates as positive electrodes for power systems in which cost is critical. Proper design and architecture could lead to Mg-based batteries with energy densities of 400 - 1100 watt hour per kilogram (Wh/kg) for an open circuit voltage in the range of 0.8 - 2.1

Energy Storage 207

Energy Storage Grid Energy Ni-Li 207

Green Car Congress

AUGUST 7, 2020

REPAIR teams will develop technology that enables gas utilities to update their distribution systems at low cost and continue to reliably service commercial and residential gas delivery needs nationwide. The designed polymer composite coating materials provide structural strength and facile processability with smart functionalities.

Gas 297

Gas Gas-Electric Universal Colorado 297

Green Car Congress

SEPTEMBER 18, 2015

This project will develop a low cost, ultra-compact power module using innovative integrated-cooling to increase power density, improve performance, and reduce cost. Ultra-Light Door Design, Manufacturing and Demonstration (Area of Interest 2). Delphi Automotive Systems. Vehma International of America. TPI Composites.

Fuel 150

Fuel Carbon Fiber Lithium Ion Vehicles 150

Green Car Congress

FEBRUARY 1, 2013

Cost and performance targets in this technology area include: Electric motors. Develop new low-cost and highly efficient motor designs, alternative magnetic materials with reduced rare earth content, and improved motor manufacturing methods. Traction drive system. On-board chargers.

Plug-in 247

Plug-in Zinc Air Li-ion 2012 247