The dual-bell rocket nozzle was first proposed in 1949, offering a potential improvement in rocket nozzle performance over the conventional-bell nozzle. Despite the performance advantages that have been predicted, both analytically and through static test data, the dual-bell nozzle has still not been adequately tested in a relevant flight environment. In 2013 a proposal was constructed that offered a NASA F-15 airplane as the flight testbed, with the plan to operate a dual-bell rocket nozzle during captive-carried flight. If implemented, this capability will permit nozzle operation into an external flow field similar to that of a launch vehicle, and facilitate an improved understanding of dual-bell nozzle plume sensitivity to external flow-field effects. More importantly, this flight testbed can be utilized to help quantify the performance benefit with the dual-bell nozzle, as well as to advance its technology readiness level. This presentation provides highlights of a technical paper that outlines this ultimate goal, including plans for future flights to quantify the external flow field of the airplane near the nozzle experiment, as well as details on the conceptual design for the dual-bell nozzle cold-flow propellant feed system integration within the NASA F-15 Propulsion Flight Test Fixture. The current study shows that this concept of flight research is feasible, and could result in valuable flight data for the dual-bell nozzle.
Conceptual Design for a Dual-Bell Rocket Nozzle System Using a NASA F-15 Airplane as the Flight Testbed
2014
14 pages
Report
Keine Angabe
Englisch
Test Facilities & Equipment , Space Launch Vehicles & Support Equipment , Spacecraft Trajectories & Flight Mechanics , Manned Spacecraft , F-15 AIRCRAFT , ROCKET NOZZLES , NOZZLE DESIGN , FLIGHT TESTS , FLOW DISTRIBUTION , NOZZLE GEOMETRY , SYSTEMS INTEGRATION , LAUNCH VEHICLES , PROPULSION , STATIC TESTS , TECHNOLOGY ASSESSMENT