The search for ever-lower emission technology for future generations of aircraft engines is actively progressing on both sides of the Atlantic. Tucked away on a modest-size stand at this year’s Farnborough International Airshow was a highly varied collection of unconventional engine technology displays – a clear indication of radical innovation already being investigated as a part of Ultimate, the European Horizon 2020 research and innovation project.
Engineers at Jetoptera in Edmonds, Washington, and GE Aviation in Evandale, Ohio, are collaborating on a 500 pound-force (lbf) class fluidic propulsion system leveraging a gas generator based on GE Aviation’s H-Series turboprop engine. Jetoptera’s Fluidic Propulsion System is, officials say, both revolutionary and a remarkably simple approach to producing thrust for powerful, vertical takeoff and landing (VTOL)-capable aircraft.
In part two of a two-part series, Richard Gardner discusses various aerospace propulsion innovations and continued work by aerospace engineers and scientists to advance aircraft engine technologies to increase efficiency and lower emissions.
An updated version of GE Aviation’s T901-GE-900 turboprop engine used in the AH-64 Apache attack and UH-60 Black Hawk utility helicopters successfully completed the preliminary design review for the U.S. Army’s Improved Turbine Engine Program.
Aerospace systems, subsystems, and components must continue to operate as intended when exposed to fire, rather than going up in flames and ceasing to work altogether. Fire and flammability testing is an all-important prerequisite to airworthiness, and the focus of a new technical standards committee that SAE International in Warrendale, Pennsylvania, is forming in response to a request from Federal Aviation Administration (FAA) officials in Washington.
Through this work, Wind River and Airbiquity look to enable secure and intelligent software updates and data management for these vehicles through over-the-air (OTA) programming technology. The work may also lead to similar solutions for traditional aerospace and unmanned aircraft system (UAS) industries.
SAE International® and General Motors are prepping for the AutoDrive Challenge™ Year 2 Competition May 29 through June 4, 2019, at the Mcity Test Facility, a purpose-built proving ground for connected and automated vehicles and technologies at the University of Michigan in Ann Arbor.
The event, co-hosted by SAE and General Motors Company, will be held from May 29 to June 4 and focus on testing dynamic object detection and multiple lane changing solutions on a GM-provided Chevrolet Bolt EV.
Continental Aerospace Technologies is partnering with Diamond Aircraft Industries GmbH of Austria to provide a new powerplant for the DA50 general aviation aircraft. Continental also recently expanded its portfolio with a “cash and in-kind contribution” investment in Ampaire Inc., an electric aircraft and propulsion company.
Join SAE International Product Group Director, John Tintinalli and Editorial Director & Content Strategist, Courtney Howard as they discuss automated vehicle safety with other industry experts at AUVSI Xponential 2019.
Lidar technologies provide immediate and accurate free-space detection and excellent object detection and localization. As a result, a driver-assistance system designed with a high-performance, forward-looking lidar (FLL) sensor would greatly improve vehicle performance and safety. The third installment of this multipart series provides practical insight into the use of lidar technology as the cornerstone of a real-world advanced driver-assistance system.
To better inform and equip mobility engineers dealing with these challenges, SAE International has released a new book series from Juan R. Pimentel that explores automated vehicle safety concepts and technologies.
“We originally thought solar cells would be standard on the airplane’s wings,” says George E. Bye, founder and CEO of Bye Aerospace Bye. “However, with eFlyer’s primary markets being flight training and air taxi services, it makes more sense to make the price of the airplane as reasonable as possible.”