"While we continue to work on our customer programs, and research and development programs (like gasoline compression ignition), we are excited to showcase the fuel efficiency, low emissions, and outstanding driving characteristics of our OP engines," said David Johnson, president and CEO of Achates Power. "There is no technical solution to respond to the proposed 2025 CAFE regulation that is as cost effective, compatible with our existing vehicles and fuels, ready for production, and adaptable to future renewable fuels as our opposed-piston engines."
The EPA's draft Technical Assessment Report released in 2016 forecast cost increases to integrate fuel saving technology, using this information and a related National Academy of Sciences report, Achates Power determined that including the opposed-piston engine in the roadmap to achieve CAFE will be at least $1,000 less expensive than other options, according to the company.
The opposed-piston engine uses fewer parts, including the eliminating the cylinder heads and related components, eliminating the valvetrain and related components, and a reduction in the aftertreatment system size and cost. A comparison between the 2.7L OP engine and a comparable V-6 with supercharger shows a part reduction of more than 60%, enabling an approximate 10% cost reduction.
"In 2014, we presented a peer-reviewed technical paper, Meeting Stringent 2025 Emissions and Fuel Efficiency Regulations with an Opposed-Piston, Light-Duty Diesel Engine, at the SAE World Congress showing how we were able to meet CAFE 2025 regulations in a full-size truck," said Fabien Redon, vice president of technology development at Achates Power. "And in 2018 we will have a demonstration vehicle that proves an internal combustion engine is able to cost effectively meet the CAFE standard, does not require the adoption of costly infrastructure upgrades, vehicle modifications or a change in how the driver operates or maintains the vehicle."
Achates Power has spent 13 years improving the opposed-piston engine, a historically efficient engine originally developed in the late 1800's. The Achates Power opposed-piston engine features two pistons per cylinder, working in opposite reciprocating action; the opposed-piston engine does not need cylinder heads, which are a major contributor to heat losses in conventional engines.
Ports in the cylinder walls replace the complex poppet valves and friction-creating valve trains of conventional engines. The intake ports at one end of the cylinder and exhaust ports at the other are opened by the piston motion and enable efficient uniflow air scavenging. The two-stroke, compression-ignition engine has been engineered to achieve superior thermal efficiency by the virtue of its lower heat losses, higher expansion ratio, lean combustion and reduced pumping losses.
Achates Power currently has engine programs under development with 12 engine manufacturers, including work with Cummins on the next-generation combat engine for the U.S. Army; an opposed-piston, gasoline compression ignition engine for the U.S. Department of Energy in partnership with Argonne National Laboratory and Delphi Automotive; and Fairbanks Morse.
Updated: March 24, 2017