Ultra-Light Conformable Natural Gas Tank

Ultra-Light Conformable Natural Gas Tank


Program:
MOVE
Award:
$553,092
Location:
Richland, Washington
Status:
ALUMNI
Project Term:
10/01/2012 - 09/30/2014

Technology Description:

Pacific Northwest National Laboratory (PNNL) is developing a low-cost, conformable natural gas tank for light-duty vehicles utilizing the same metal forming techniques used to fabricate high-strength cruise missile fins. Traditional gas tanks are made using a method known as arc welding, where an electric arc is used to melt and combine metals, which can limit their conformability. PNNL's ultra-light design relies on friction stir welding, where metal is softened—like taffy—instead of melted, which allows the metal to retain its original properties and preserves its conformability. The manufacturing process for PNNL's tanks incorporates high-strength internal strut technology that efficiently fits into a vehicle, offering a tank that costs around $1500, a substantial price reduction compared to today's best tanks.

Potential Impact:

If successful, PNNL's ultra-light, conformable natural gas tank would represent a dramatic improvement in conformability and a reduction in weight and cost over current storage options.

Security:

Improving the convenience of natural gas vehicle ownership could reduce our dependence on foreign oil and make consumers less vulnerable to sudden oil price shocks.

Environment:

Natural gas vehicles produce approximately 10% less greenhouse gas emissions than gasoline-powered vehicles throughout the fuel life cycle.

Economy:

Compressed natural gas currently costs half as much per gallon of gasoline equivalent. With the average American spending over $2000 per year on gas, enabling the use of natural gas vehicles could save drivers $1000 per year.

Contact

ARPA-E Program Director:
Dr. Jason Rugolo
Project Contact:
Dr. Kenneth Johnson
Press and General Inquiries Email:
ARPA-E-Comms@hq.doe.gov
Project Contact Email:
Ki.johnson@pnnl.gov

Partners

Lincoln Composites

Related Projects


Release Date:
02/22/2012