Range, charging infrastructure, battery costs, etc. come to mind when discussing electric vehicles, but often overlooked are the vehicle’s noise and vibration characteristics.
LiquidPiston Inc. has developed a new engine that can run on multiple fuels, including diesel, jet fuel, and gasoline. This platform uses an optimized thermodynamic cycle and a new rotary engine architecture and could increases flight endurance over conventional UAV engines by greater than 50%.
Automotive acoustic and textile solutions global supplier Auria Solutions, Ltd. (Southfield, MI) has established its headquarters facility in metro Detroit.
Engineers at Boeing and NASA are collaborating on a lightweight, ultra-thin Transonic Truss-Braced Wing (TTBW) concept, designed to be more aerodynamic and fuel efficient than current designs, as part of the Subsonic Ultra Green Aircraft Research (SUGAR) program focusing on innovative aerospace concepts that reduce noise and emissions while enhancing performance.
Michael Duoba (SAE Member, 1993), Vehicle Test Engineer and team leader for the Advanced Powertrain Research Facility at Argonne National Laboratory, discuss his career progression and the type of work conducted at his lab.
McLaren Applied Technologies of Woking, United Kingdom unveiled their “MCLExtreme” (MCLE) vision for the future of grand prix racing. While McLaren Applied Technologies believes that the 2050 Formula 1 World Championship will still feature open-wheel, rear wheel drive cars with humans in the cockpit, artificial intelligence (AI), augmented reality, autonomous functions, and electric propulsion will play major roles.
Sikorsky, a Lockheed Martin company (NYSE:LMT), in Stratford, Connecticut, and Boeing Defense, Space & Security (NYSE:BA) in Berkeley, Missouri, are introducing the SB>1 DEFIANT helicopter designed to fly with advanced agility and maneuverability at twice the speed and range of current conventional helicopters. Jointly developed for the U.S. Army’s Joint Multi-Role technology demonstrator program, the new rotorcraft design is intended to help inform the next generation of military helicopters as part of the U.S. Army's Future Vertical Lift (FVL) program.