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안성종,강연준,김석현,박성용,Ahn, Sung-Jong,Kang, Yeon-June,Kim, Seock-Hyun,Park, Sung-Yong 한국음향학회 2008 韓國音響學會誌 Vol.27 No.4
본 논문에서는 미소 비대칭 원통쉘의 맥놀이 음 방사 특성을 해석적으로 검토한다. 미소 비대칭 원통쉘은 한국종의 특징인 맥놀이 현상을 설명할 수 있는 유용한 모델이다. 축대칭 구조물에 부가된 미소 비대칭성은 매우 근접한 주파수 쌍을 만들며, 이 주파수 쌍의 간섭으로 맥놀이 현상이 생긴다. 본 연구에서는 맥놀이 음 방사의 해석적인 모델을 이용하여 방사 음장을 결정하고, 방사 음의 맥놀이 지도를 이용하여 방사 방향 및 거리에 따른 맥놀이 음의 변화특성을 검토하였다. 이론 모델에 의한 해석결과는 경계 요소법에 의한 결과와 비교하여 신뢰도를 검증하였다. In this paper, radiation characteristics of the beating sound are analytically investigated on a slightly asymmetric cylindrical shell. The cylindrical shell isan efficient model to consider the beat characteristics of Korean bells. Slight asymmetry in Korean bells makes mode pair which has close frequency components and the interaction of each mode pair produces beating sound. Based on the analytical model, the radiated sound field is determined. Using the sound beat map, the beating sound vs. direction and distance is investigated. Finally, results of the theoretical method are compared with those of the boundary element method to verify the validity.
안성종(Sung-Jong Ahn),박누가(Luke Park),윤태준(Tae-Jun Yun),석진익(Jin-ik Suk) 한국소음진동공학회 2011 한국소음진동공학회 학술대회논문집 Vol.2011 No.4
Doosan has been developing a 5MW class gas turbine engine, DGT-5. Campbell diagram has been used for prediction of possible occurrence of resonances of rotating machinery. The Campbell diagram consists of blade natural frequency and excitation frequency. In this paper, modal characteristics of compressor and turbine blades are investigated and Campbell diagram is obtained. We calculated compressor and turbine blade’s natural frequency using ANSYS tool. The result has been verified through test.
보일러 튜브군의 음향공진 회피를 위한 음향배플의 위치에 따른 FEM 음향모드해석
안성종(Sung Jong Ahn),주영호(Young Ho Ju),김철홍(Cheol Hong Kim) 한국소음진동공학회 2012 한국소음진동공학회 학술대회논문집 Vol.2012 No.4
A flow induced mechanical vibration and acoustic resonance should be considered at design stage because they are mainly occurred in the tube bank of boiler. Acoustic resonance is occurred when the vortex shedding frequency of tube bank coincides with the acoustic natural frequency of the cavity. Effective solution to avoid acoustic resonance is installing acoustic baffles in the tube banks parallelly inside of the flow cavity. Thus, location and number of acoustic baffles should be exactly calculated to eliminate the acoustic resonance. This paper presents case study of acoustic resonance due to inappropriate number and location of acoustic baffles. Measured frequency and mode in the study is verified by FEM acoustic modal analysis. The number and location of acoustic baffles to avoid acoustic resonance are calculated by using FEM acoustic modal analysis.