Skip Top nav bar link group topnav end piece go to business section go to education section go to history section go to gallery section go to news section go to organizations section go to research section go to search engine go to site index topnav end piece
NASA Meatball NASA Dryden Linear Aerospike SR Experiment (LASRE) banner
LASRE pod being mated to SR-71 SR-71-LASRE EC96-43419-12: LASRE pod being mated to SR-71

Photo Number: EC96-43419-12
Photo Date: 15 Feb 1996

Formats: 558x480 JPEG Image (111 KBytes)
1191x1024 JPEG Image (618 KBytes)
2000x1720 JPEG Image (739 KBytes)

Photo
Description:
This is a head-on view of the NASA-Dryden Flight Research Center (DFRC) SR-71 with the Linear Aerospike SR Experiment (LASRE) pod held over it's attachment points on the aircraft for a fit-check. The fit-check occurred Feb. 15, 1996, at Lockheed Martin Skunkworks in Palmdale, Cailfornia.


Photo
Description:
The addition of the Linear Aerospike SR Experiment (LASRE) pod to NASA's SR-71, tail number 844, added seven tons to the aircraft. This Feb. 15, 1996 photo of the pod's fit-check at the Lockheed Martin Skunkworks in Palmdale, California, shows the LASRE package being hoisted above the aircraft, which has it's right engine pod and the attached wing up. The SR-71's engines, tails, and various other parts are removed for refurbishment.

Project
Description:
The LASRE experiment was designed to provide in-flight data to help Lockheed Martin evaluate the aerodynamic characteristics and the handling of the SR-71 linear aerospike experiment configuration. The goal of the project was to provide in-flight data to help Lockheed Martin validate the computational predictive tools it was using to determine the aerodynamic performance of a future reusable launch vehicle.

The joint NASA, Rocketdyne (now part of Boeing), and Lockheed Martin Linear Aerospike SR-71 Experiment (LASRE) completed seven initial research flights at Dryden Flight Research Center. Two initial flights were used to determine the aerodynamic characteristics of the LASRE apparatus (pod) on the back of the SR-71. Five later flights focused on the experiment itself. Two were used to cycle gaseous helium and liquid nitrogen through the experiment to check its plumbing system for leaks and to test engine operational characteristics. During the other three flights, liquid oxygen was cycled through the engine. Two engine hot-firings were also completed on the ground. A final hot-fire test flight was canceled because of liquid oxygen leaks in the test apparatus.

The LASRE experiment itself was a 20-percent-scale, half-span model of a lifting body shape (X-33) without the fins. It was rotated 90 degrees and equipped with eight thrust cells of an aerospike engine and was mounted on a housing known as the "canoe," which contained the gaseous hydrogen, helium, and instrumentation gear. The model, engine, and canoe together were called a "pod." 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. The interaction of the aerodynamic flow with the engine plume could create drag; design refinements looked at minimizing this interaction. The entire pod was 41 feet in length and weighed 14,300 pounds. The experimental pod was mounted on one of NASA's SR-71s, which were at that time on loan to NASA from the U.S. Air Force.

Lockheed Martin may use the information gained from the LASRE and X-33 Advanced Technology Demonstrator Projects to develop a potential future reusable launch vehicle. NASA and Lockheed Martin were partners in the X-33 program through a cooperative agreement. The goal of that program was to enable significant reductions in the cost of access to space and to promote creation and delivery of new space services and activities to improve the United States's economic competitiveness. In March 2001, however, NASA cancelled the X-33 program.


NASA Photo by: Tony Landis

Keywords: SR-71; 844; LASRE; Linear Aerospike SR Experiment; pod; fit-check; Lockheed Martin Skunkworks;


Last Modified: February 6, 2002
Responsible NASA Official: Marty Curry
Curator: PAO Webmasters

NASA Website Privacy Statement