Chrysler caught everyone off guard this week when it announced a partnership with the U.S. Environmental Protection Agency to design and develop an experimental hydraulic hybrid powertrain suitable for use in large passenger cars and light-duty vehicles.
The aim is to have a running demonstration vehicle based on the current minivan sometime during 2012. EPA has been involved in trials with Eaton Corporation of the company’s hydraulic launch assist technology for trucks.
The announcement was made at the EPA laboratories in Ann Arbor, Mich., following a meeting with Sergio Marchionne, Chrysler Group CEO, and Lisa P. Jackson, Agency Administrator for the EPA.
“In addition to creating the jobs of the future, clean energy benefits the U.S. economy by ultimately making energy costs more affordable for consumers – especially if their dollars stay in America,” Marchionne said. “Hydraulic hybrid vehicle technology is one more promising path worth pursuing in the effort to reduce our carbon footprint, and we are excited to partner with the EPA to push forward on this track.”
“Hydraulic hybrid vehicles represent the cutting edge of fuel-efficiency technology and are one of many approaches we’re taking to save money for drivers, clean up the air we breathe and cut the greenhouse gases that jeopardize our health and prosperity,” said EPA Administrator Lisa P. Jackson. “The EPA and Chrysler are working together to explore the possibilities for making this technology affordable and accessible to drivers everywhere. This partnership is further proof that we can preserve our climate, protect our health and strengthen our economy all at the same time.”
The hydraulic hybrid system, developed by the EPA’s lab in Ann Arbor, is well known and currently used in industrial applications, including large delivery trucks and refuse trucks across the country. The technology has shown substantial increases in fuel economy when compared with traditional powertrains in the same type of vehicles. Working together, both parties hope to reduce the size and complexity of the hybrid system and produce a technology that is sensitive to the needs of drivers for smooth and quiet operation.