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GE Aerospace announced the successful demonstration of its cutting-edge hypersonic dual-mode ramjet, marking a significant milestone in high-speed propulsion technology.
According to a press release from GE Aerospace, this advancement, capable of enabling high-speed flight and extended range across various multi-mission aircraft, represents the latest achievement in GE’s diverse portfolio of hypersonic programs.
The dual-mode ramjet began testing in March at GE’s high-speed propulsion testing facility in Evendale, Ohio, just 11 months after the design effort was launched. The tests exceeded performance expectations, demonstrating robust operation and a threefold increase in airflow compared to previous hypersonic technology demonstrators.
“The rapid progression from design to testing underscores our commitment to driving innovation in hypersonic technologies,” said Amy Gowder, president and CEO of Defense & Systems at GE Aerospace. “This milestone not only shows the exceptional talent and dedication of our team but also reaffirms our position as a leader in the pursuit of hypersonic flight.”
The achievement was made possible through the collaboration of GE Aerospace’s engineers, Innoveering – a hypersonic propulsion specialist acquired by GE Aerospace in 2022 – and GE Aerospace’s Research Center. This teamwork facilitated the swift transition from design to successful testing within an impressive timeframe.
The technology’s robust performance sets the stage for the next phase of development. “The successful development and testing of the dual-mode ramjet in such a short period of time highlight the capabilities of our team and partners,” said Mark Rettig, vice president & general manager of Edison Works Business & Technology Development at GE Aerospace. “The next phase will focus on continued testing and technology demonstration, aligning with our roadmap for integrated high-speed propulsion solutions.”
GE Aerospace’s dual-mode ramjet technology could revolutionize multi-mission aircraft capabilities, providing the means for sustained high-speed flight and extended operational ranges. This breakthrough could significantly impact the defense and aerospace sectors, enhancing both tactical and strategic operations.