Green Car Congress

DECEMBER 20, 2013

Developing cost-effective technologies to improve new vehicle fuel efficiency and achieve or exceed corporate average fuel economy (CAFE) standards of 144 gCO 2 /mi (61.6 Some specific goals include: Cutting battery costs from their current $500/kWh to $125/kWh. million barrels per day); and. lb saved; with ?

Vehicles 246

Vehicles Fuel Economy Carbon Fiber Plug-in 246

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

Green Car Congress

SEPTEMBER 4, 2013

Advanced materials are essential for boosting the fuel economy of cars and trucks while maintaining and improving safety and performance. Reducing a vehicle’s weight by just 10% can improve fuel economy by 6% to 8%. In the last four years, the cost of a plug-in electric vehicle battery has come down by nearly 50%.

Lithium Ion 210

Lithium Ion Transportation Universal Fuel Economy 210

Green Car Congress

JUNE 12, 2012

The top two awards, one of $9 million to a project led by Dow Chemical, and one of $8.999 million to a project led by PolyPlus, will fund projects tackling, respectively, the manufacturing of low-cost carbon fibers and the manufacturing of electrodes for ultra-high-energy-density lithium-sulfur, lithium-seawater and lithium-air batteries.

Carbon Fiber 210

Carbon Fiber Manufacturer Carbon Lithium Sulfur 210

Green Car Congress

FEBRUARY 2, 2013

The US Department of Energy (DOE) Vehicle Technology Program is seeking public comment on the draft of an upcoming solicitation ( DE-FOA-0000793 ) totaling more than $50 million for new research projects that will develop advanced technologies to improve vehicle performance and increase fuel economy. Carbon Fiber Polymer Composite.

Li-ion 240

Li-ion Fuel Vehicles Lithium Ion 240

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

APRIL 10, 2012

EERE’s Vehicles Technologies Program (VTP) is focused on developing technologies to enable average new vehicle fuel economy of more than 60 mpg (3.9 Innovative subsystem component technologies in the areas of high-resolution low-cost NO x and NH 3 sensors. L/100 km) for cars and more than 43 mpg (5.5 Hydrogen Storage.

Hydrogen 210

Hydrogen Fuel Range Vehicles 210

Green Car Congress

JULY 17, 2015

Frank has spent more than 30 years in breakthrough vehicle development, during which he received two world records for vehicle fuel economy, designed nine generations of PHEVs, and was a four-time winner of US DOE Advanced Vehicle Design competitions. It is wasteful and destructive to be burning this versatile molecule; we must stop.

PHEV 150

PHEV Plug-in Renewable Energy 150