声学技术
聲學技術
성학기술
Technical Acousitics
2015年
4期
347-352
,共6页
刘淑梅%孔德义%李山山%李子博%赵湛
劉淑梅%孔德義%李山山%李子博%趙湛
류숙매%공덕의%리산산%리자박%조담
微穿孔板%粒子群优化算法%优化设计%吸声系数
微穿孔闆%粒子群優化算法%優化設計%吸聲繫數
미천공판%입자군우화산법%우화설계%흡성계수
micro-perforated panel%particle swarm optimization algorithm%optimization design%sound absorption
微穿孔板吸声体是由穿孔直径在1 mm以下的薄板和板后空腔组成的共振吸声结构,其结构通常可利用经典的微穿孔板理论来设计。但在温度变化条件下,经典的微穿孔板理论已经不足以设计出满足要求的微穿孔板结构。文中在设计微穿孔板吸声结构时,不仅考虑了结构参数孔径d、板厚t、孔间距b及空腔深度D对微穿孔板吸声特性的影响,又计入了温度 T 这一参数。拟采用改进的粒子群优化算法,分别对一定温度下的单层和双层微穿孔板吸声体的结构参数进行优化设计,搜索得到最优的参数组合,使其在给定的频带范围内平均吸声系数最高。优化结果表明:利用改进的粒子群算法设计出的微穿孔板吸声结构在给定频率范围内吸声系数较大,且符合给定温度的要求。
微穿孔闆吸聲體是由穿孔直徑在1 mm以下的薄闆和闆後空腔組成的共振吸聲結構,其結構通常可利用經典的微穿孔闆理論來設計。但在溫度變化條件下,經典的微穿孔闆理論已經不足以設計齣滿足要求的微穿孔闆結構。文中在設計微穿孔闆吸聲結構時,不僅攷慮瞭結構參數孔徑d、闆厚t、孔間距b及空腔深度D對微穿孔闆吸聲特性的影響,又計入瞭溫度 T 這一參數。擬採用改進的粒子群優化算法,分彆對一定溫度下的單層和雙層微穿孔闆吸聲體的結構參數進行優化設計,搜索得到最優的參數組閤,使其在給定的頻帶範圍內平均吸聲繫數最高。優化結果錶明:利用改進的粒子群算法設計齣的微穿孔闆吸聲結構在給定頻率範圍內吸聲繫數較大,且符閤給定溫度的要求。
미천공판흡성체시유천공직경재1 mm이하적박판화판후공강조성적공진흡성결구,기결구통상가이용경전적미천공판이론래설계。단재온도변화조건하,경전적미천공판이론이경불족이설계출만족요구적미천공판결구。문중재설계미천공판흡성결구시,불부고필료결구삼수공경d、판후t、공간거b급공강심도D대미천공판흡성특성적영향,우계입료온도 T 저일삼수。의채용개진적입자군우화산법,분별대일정온도하적단층화쌍층미천공판흡성체적결구삼수진행우화설계,수색득도최우적삼수조합,사기재급정적빈대범위내평균흡성계수최고。우화결과표명:이용개진적입자군산법설계출적미천공판흡성결구재급정빈솔범위내흡성계수교대,차부합급정온도적요구。
As a new promising sound absorption material, micro-perforated panel absorbers (MPPAs) have been suc-cessfully applied in various noise control occasions, even capable of working at harsh environments, including high temperature circumstances. According to Maa’s model, the sound absorption performance of a MPPA can be theoret-ically predicted as four parameters were chosen, i.e., the perforation diameter d, the panel thickness t, the distance be-tween centers of adjacent perforations b, and the depth of the air gap D. However, the Maa’s model turns to be inaccurate at high temperatures. In this work, the temperature T is included into Maa’s model as the fifth parameter besides the four parameters. Simulation results show that better prediction accuracy could be obtained at high temperatures with the re-vised model. Furthermore, an improved particle swarm optimization algorithm is proposed to search for optimal structure parameters of mono-layer and double-layer MPPAs at given temperatures, which will facilitate the design work for MPPAs working at high temperatures.