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기술보고서 게시판 내용
타이틀	Enhanced Core Noise Modeling for Turbofan Engines
저자	Stone, James R.;; Krejsa, Eugene A.;; Clark, Bruce J.
Keyword	AEROACOUSTICS;; AERODYNAMIC NOISE;; COMBUSTION CHAMBERS;; DYNAMIC MODELS;; ENGINE NOISE;; JET AIRCRAFT NOISE;; MODELS;; NOISE (SOUND); NOISE PREDICTION (AIRCRAFT); NOISE REDUCTION;; TURBOFAN ENGINES;; TURBOMACHINERY
URL	http://hdl.handle.net/2060/20110013366
보고서번호	NASA/CR-2011-217026
발행년도	2011
출처	NTRS (NASA Technical Report Server)
ABSTRACT	This report describes work performed by MTC Technologies (MTCT) for NASA Glenn Research Center (GRC) under Contract NAS3-00178, Task Order No. 15. MTCT previously developed a first-generation empirical model that correlates the core/combustion noise of four GE engines, the CF6, CF34, CFM56, and GE90 for General Electric (GE) under Contract No. 200-1X-14W53048, in support of GRC Contract NAS3-01135. MTCT has demonstrated in earlier noise modeling efforts that the improvement of predictive modeling is greatly enhanced by an iterative approach, so in support of NASA''s Quiet Aircraft Technology Project, GRC sponsored this effort to improve the model. Since the noise data available for correlation are total engine noise spectra, it is total engine noise that must be predicted. Since the scope of this effort was not sufficient to explore fan and turbine noise, the most meaningful comparisons must be restricted to frequencies below the blade passage frequency. Below the blade passage frequency and at relatively high power settings jet noise is expected to be the dominant source, and comparisons are shown that demonstrate the accuracy of the jet noise model recently developed by MTCT for NASA under Contract NAS3-00178, Task Order No. 10. At lower power settings the core noise became most apparent, and these data corrected for the contribution of jet noise were then used to establish the characteristics of core noise. There is clearly more than one spectral range where core noise is evident, so the spectral approach developed by von Glahn and Krejsa in 1982 wherein four spectral regions overlap, was used in the GE effort. Further analysis indicates that the two higher frequency components, which are often somewhat masked by turbomachinery noise, can be treated as one component, and it is on that basis that the current model is formulated. The frequency scaling relationships are improved and are now based on combustor and core nozzle geometries. In conjunction with the Task Order No. 10 jet noise model, this core noise model is shown to provide statistical accuracy comparable to the jet noise model for frequencies below blade passage. This model is incorporated in the NASA FOOTPR code and a user s guide is provided.