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타이틀	Prediction of Launch Vehicle Ignition Overpressure and Liftoff Acoustics
저자	Casiano, Matthew
Keyword	ACOUSTICS;; LAUNCH VEHICLES;; OVERPRESSURE;; SOUND PRESSURE;; ROCKET EXHAUST;; EXHAUST GASES;; BOOSTER ROCKET ENGINES;; GAS STREAMS;; WATER INJECTION;; TURBULENCE;; PLUMES;;
URL	http://hdl.handle.net/2060/20090032104
보고서번호	MFS-32579-1
발행년도	2009
출처	NTRS (NASA Technical Report Server)
ABSTRACT	The LAIOP (Launch Vehicle Ignition Overpressure and Liftoff Acoustic Environments) program predicts the external pressure environment generated during liftoff for a large variety of rocket types. These environments include ignition overpressure, produced by the rapid acceleration of exhaust gases during rocket-engine start transient, and launch acoustics, produced by turbulence in the rocket plume. The ignition overpressure predictions are time-based, and the launch acoustic predictions are frequency-based. Additionally, the software can predict ignition overpressure mitigation, using water-spray injection into the rocket exhaust stream, for a limited number of configurations. The framework developed for these predictions is extensive, though some options require additional relevant data and development time. Once these options are enabled, the already extensively capable code will be further enhanced. The rockets, or launch vehicles, can either be elliptically or cylindrically shaped, and up to eight strap-on structures (boosters or tanks) are allowed. Up to four engines are allowed for the core launch vehicle, which can be of two different types. Also, two different sizes of strap-on structures can be used, and two different types of booster engines are allowed. Both tabular and graphical presentations of the predicted environments at the selected locations can be reviewed by the user. The output includes summaries of rocket-engine operation, ignition overpressure time histories, and one-third octave sound pressure spectra of the predicted launch acoustics. Also, documentation is available to the user to help him or her understand the various aspects of the graphical user interface and the required input parameters.