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The Boom Symphony is a medium-bypass turbofan engine under development by Boom Technology for use on its Overture supersonic airliner. The engine is designed to produce 35,000 pounds (160 kN) of thrust at takeoff, sustain Overture supercruise at Mach 1.7, and burn sustainable aviation fuel exclusively.
The Boom Overture is a supersonic airliner under development by Boom Technology, designed to cruise at Mach 1.7 or 975 knots (1,806 km/h; 1,122 mph). It will accommodate 64 to 80 passengers, depending on the configuration, and have a range of 4,250 nautical miles (7,870 km; 4,890 mi). Boom Technology aims to introduce the Overture in 2029. [2]
In January 2022, Boom began conducting engine run-ups using the XB-1, in preparation for taxi tests and the first flight later in 2022. [19] In May 2022, ground testing was completed with engine run up done on all three engines. Undercarriage and flight systems were tested and deemed ready. Taxi runs and actual flight runs were expected in late ...
Boom’s engine is called Symphony, and it’s designed in collaboration with Florida Turbine Technologies, whose engineers have worked on the supersonic engines of fighter jets such as the ...
American Airlines will buy up to 20 jets from Boom Supersonic, an aircraft maker that aims to commercialize supersonic, and super-fast, flight. Boom's Overture four-engine jets promise speeds of ...
The Boom XB-1 "Baby Boom" is a one-third-scale supersonic demonstrator, designed to maintain Mach 2.2, with over 1,000 nautical miles [nmi] (1,900 km; 1,200 mi) of range, and powered by three General Electric J85-15 engines with 4,300 pounds-force [lbf] (19 kN) of thrust. [14] It was rolled out in October 2020. [15]
According to Boom, a jet must reach around 770 mph at sea level to break the sound barrier. The XB-1 serves as the design foundation for Boom’s future jet, a concept model called Overture.
Jet engine design shifts significantly between supersonic and subsonic aircraft. Jet engines, as a class, can supply increased fuel efficiency at supersonic speeds, even though their specific fuel consumption is greater at higher speeds. Because their speed over the ground is greater, this decrease in efficiency is less than proportional to ...