Linear Aerospike SR-71 Experiment
LASRE was NASA's Linear Aerospike SR-71 Experiment which took place at the Dryden Flight Research Center at Edwards Air Force Base, California, until November 1998. The experiment sought to provide flight data to help Lockheed Martin validate and tune the computational predictive tools used to determine the aerodynamic performance of the Lockheed Martin X-33 lifting body and linear aerospike engine combination and to lay groundwork for a future reusable launch vehicle.[1]
LASRE was a small, half-span model of the X-33's lifting body with eight thrust cells of an aerospike engine, rotated 90 degrees and mounted on the back of an Lockheed SR-71 Blackbird aircraft, to operate like a kind of "flying wind tunnel." The experiment focused on determining how a reusable launch vehicle's engine plume would affect the aerodynamics of its lifting body shape at specific altitudes and speeds reaching about 750 miles/hour (335 meter/second or 1207 km/h). Design refinements looked to minimize the interaction of the aerodynamic flow with the engine plume, which could create drag.
The aircraft completed seven research flights. Two initial flights were used to determine the aerodynamic characteristics of the LASRE apparatus on the back of the aircraft. The first of those occurred 31 October 1997. The SR-71 took off at 8:31 a.m. (Pacific Standard Time-PST). The aircraft flew for 1:50 hour, reaching Mach 1.2 and an altitude of 33,000 feet (10,000 m), landing at Edwards AFB. The result validated the SR-71/pod configuration.[2]
Five later flights focused on the experiment; two were used to cycle gaseous helium and liquid nitrogen through the experiment to check its plumbing system for leaks and to check engine operation characteristics. The first of these flights occurred 4 March 1998. The SR-71 took off at 10:16 a.m. PST. The aircraft flew for 1:57 hour, reaching Mach 1.58 before landing at Edwards AFB.
During three more flights in the spring and summer of 1998, liquid oxygen was cycled through the engine. In addition, two engine hot firings were conducted on the ground. Researchers decided against a hot-fire flight test because of liquid oxygen leaks in the test apparatus. The ground firings and the airborne cryogenic gas flow tests provided enough information to predict the hot-gas effects of an aerospike engine firing during flight.[3]
References
- ↑ Marty Curry (7 May 2008). "NASA Dryden Fact Sheet - LASRE Project". NASA. Retrieved 14 July 2012.
- ↑ Cast, Jim (31 October 1997). "Linear Aerospike SR-71 Experiment Completes Successful First Flight (97-41)" (Press release). NASA. Retrieved 14 July 2012.
- ↑ "LASRE Test Flights End, VentureStat Aerodynamic Performance Predicted (98-79)" (Press release). NASA. 20 November 1998. Retrieved 14 July 2012.
External links
- NASA Facts - LASRE Project PDF
- Linear Aerospike SR-71 Experiment(LASRE): Aerospace Propulsion Hazard Mitigation Systems PDF
- Automated Testing Experience of the Linear Aerospike SR-71 Experiment (LASRE) Controller PDF
- Evaluation of the Linear Aerospike SR-71 Experiment (LASRE) Oxygen Sensor PDF
- A Base Drag Reduction Experiment on the X-33 Linear Aerospike SR-71 Experiment (LASRE) Flight Program PDF
- Propellant Feed System Leak Detection—Lessons Learned PDF