船舶力学
船舶力學
선박역학
JOURNAL OF SHIP MECHANICS
2014年
1期
178-190
,共13页
白振国%吴文伟%左成魁%张峰%熊晨熙
白振國%吳文偉%左成魁%張峰%熊晨熙
백진국%오문위%좌성괴%장봉%웅신희
虚源法%有限水深%声辐射%圆柱壳%衰减
虛源法%有限水深%聲輻射%圓柱殼%衰減
허원법%유한수심%성복사%원주각%쇠감
Image Source Method%infinite water%sound radiation%cylinder shell%attenuation
采用虚源法建立了浅水环境中二维圆柱壳的振动声辐射数学物理模型,推导了浅水上下界面对柱壳声辐射的散射作用,利用柱函数转移公式推导了虚源和圆柱壳的互辐射阻抗矩阵,描述了不同虚像声场对本体圆柱壳的负载。利用典型圆柱壳参数和浅水参数初步计算了浅水对圆柱壳振动声辐射的影响规律及水深、潜深对声场分布和衰减特性的影响规律。研究结果表明:针对文中典型模型参数,圆柱壳没入水中深度超过0.5 m,其振动响应和表面声压与在无限水域中一致;水面和水底对圆柱壳辐射声的反射与本身辐射在有限水域内形成复杂驻波;有限水域的近场衰减特性与无限水域中的近场衰减特性基本一致;由于驻波的影响,远场声压衰减曲线相较无限水域的柱面波衰减曲线上下起伏6 dB左右,但总体衰减趋势基本一致。
採用虛源法建立瞭淺水環境中二維圓柱殼的振動聲輻射數學物理模型,推導瞭淺水上下界麵對柱殼聲輻射的散射作用,利用柱函數轉移公式推導瞭虛源和圓柱殼的互輻射阻抗矩陣,描述瞭不同虛像聲場對本體圓柱殼的負載。利用典型圓柱殼參數和淺水參數初步計算瞭淺水對圓柱殼振動聲輻射的影響規律及水深、潛深對聲場分佈和衰減特性的影響規律。研究結果錶明:針對文中典型模型參數,圓柱殼沒入水中深度超過0.5 m,其振動響應和錶麵聲壓與在無限水域中一緻;水麵和水底對圓柱殼輻射聲的反射與本身輻射在有限水域內形成複雜駐波;有限水域的近場衰減特性與無限水域中的近場衰減特性基本一緻;由于駐波的影響,遠場聲壓衰減麯線相較無限水域的柱麵波衰減麯線上下起伏6 dB左右,但總體衰減趨勢基本一緻。
채용허원법건립료천수배경중이유원주각적진동성복사수학물리모형,추도료천수상하계면대주각성복사적산사작용,이용주함수전이공식추도료허원화원주각적호복사조항구진,묘술료불동허상성장대본체원주각적부재。이용전형원주각삼수화천수삼수초보계산료천수대원주각진동성복사적영향규률급수심、잠심대성장분포화쇠감특성적영향규률。연구결과표명:침대문중전형모형삼수,원주각몰입수중심도초과0.5 m,기진동향응화표면성압여재무한수역중일치;수면화수저대원주각복사성적반사여본신복사재유한수역내형성복잡주파;유한수역적근장쇠감특성여무한수역중적근장쇠감특성기본일치;유우주파적영향,원장성압쇠감곡선상교무한수역적주면파쇠감곡선상하기복6 dB좌우,단총체쇠감추세기본일치。
A mathematical model is established, which describes vibration and radiation of 2-D cylindrical shell in shallow water, and the influence of the pressure release surface and the waterbed is taken into ac-count by Image Source Method (ISM). The interaction of various image sources is described by impedance derived from cylindrical function transferring. The radiated sound distribution field of the cylindrical shell is numerically simulated with typical parameters of shell and water based on the physical mode. The results show that when the immerse depth of the upper surface of the shell with typical parameters in this paper beyond 0.5 m, the response of the shell is just the same as the case immersing in infinite water, and the attenuation of the sound pressure along the distance in nearby space of shallow water has the similar trends with whose behavior in infinite water; and the attenuation of sound pressure in the far-field differs from cylindrical wave attenuation in infinite water reaches up to 6 dB due to the standing wave caused by the water-surface and water-bed, while the trends of the attenuation behave similar.