SSA1—1型声学水位计在三峡陡山沱水位站的比测试验

本文报道ＳＳＡ１－１型声学水位计在长江三峡陡山沱水位站所作的比测试结果，介绍了比测资料的处理及由此得出的初步结论，结果，表明，该仪器所测得的水位过程曲线与上、下游站的水位过程曲线相关性良好，证明了该仪器测量水位的可靠性。     

海水对海洋平台声发射传播特性影响研究

针对海洋平台水下钢结构无损检测的需要,研究在空气、淡水和海水作为耦合介质的情况下,声发射波在钢结构传播过程中幅值和能量的变化趋势,以及幅值和能量损失的原因。基于声发射波反射原理,分析声发射波在钢结构中传播的多径效应及波形转换特性,并解释了时域波形发生分离的原因。根据实验结果,分析了盐度对声发射波传播特性的影响。该项研究为提高海洋平台声发射检测中故障源的精确定位提供了实验依据。     

Theconvolutionaldiferentiatormethodfornu┐mericalmodelingofacousticandelasticwave┐fields

Ｔｈｅｃｏｎｖｏｌｕｔｉｏｎａｌｄｉｆｅｒｅｎｔｉａｔｏｒｍｅｔｈｏｄｆｏｒｎｕ┐ｍｅｒｉｃａｌｍｏｄｅｌｉｎｇｏｆａｃｏｕｓｔｉｃａｎｄｅｌａｓｔｉｃｗａｖｅ┐ｆｉｅｌｄｓＺＨＯＮＧ－ＪＩＥＺＨＡＮＧ（张中杰），ＪＩ－ＷＥＮＴＥＮＧ（滕吉文）ａｎ...     

双通道声学水位计

双通道声学水位计是在 SSA1- 1型声学水位计的基础上 ,通过一台主机带两个探头 ,进行准同步测量而实现的     

胜利埕岛海域海底松软沉积物声学探测方法探讨

胜利埕岛海域位于复杂的黄河三角洲沉积体系中．由于黄河的断流,在风浪和海流作用下原三角洲体系受到侵蚀．在部分海底具有松散沉积物沉积。采用侧扫声纳、双频测深仪及浅地层剖面仪3种海上物探方法,对埕岛海域海底松软沉积物进行声学探测,确定了浮泥、软土层顶、海底界面及浮泥和软土层和海底界面及浮泥和软土层的厚度,研究了埕岛海域海底松软沉积物的基本分布变化规律,为今后海洋工程地质勘察海底松软沉积物奠定了基础。     

南黄海中西部全新世地层沉积特征

南黄海是典型的物源供给丰富的宽广陆架海,全新世沉积记录十分丰富,具有分辨率高、空间分布不连续和沉积记录片段性等特征。根据近年来在南黄海采集的大量高分辨率浅地层剖面资料,结合多个钻孔的岩性特征和AMS14C测年数据,较为系统精细地揭示了南黄海全新世沉积的时空分布特征。根据沉积体空间分布范围、成因机制和物质来源,南黄海全新世沉积可划分为4个独立的沉积体,呈现出不同的声学反射特征,主要为加积进积反射、平行或透明弱反射、中高角度进积反射和中高角度倾斜-斜交反射。根据估算,河流物质输入约占到南黄海全新世沉积总量的78%,其他物质来源主要为海侵过程中较强的海洋动力侵蚀、改造和再分配的底床物质。本文的研究可为厘清南黄海全新世沉积体精细演化过程的动力学机制研究提供更多可靠的证据。     

声学探测技术在富钴结壳勘探中的应用及展望

富钴结壳是深海固体矿产之一,其资源潜力巨大,已成为世界各国竞相调查的重要对象。声学探测技术作为一种海洋地球物理探测技术,因其在大面积调查和局部连续精细勘探方面的独特优势,在富钴结壳资源调查中得到了广泛应用。在搜集整理国内外相关文献的基础上,概述了富钴结壳的分布特征,分析传统勘探方法的不足,系统介绍多波束、侧扫声呐、浅地层剖面、原位高频测厚等声学探测技术在富钴结壳勘探中的应用现状。通过比较分析国内外声学探测技术发展现状以及未来富钴结壳勘探需求,提出3点未来发展趋势：开发一体化声学探测技术以实现海底特性的综合性测量;综合利用深海潜水器以实现近底高精度探测;深度融合大数据和人工智能技术以实现海量声学数据的智能化处理。     

Sea-surface acoustic backscattering measurement at 6–25 kHz in the Yellow Sea

Sea-surface acoustic backscattering measurements at moderate to high frequencies were performed in the shallow water of the south Yellow Sea, using omnidirectional spherical sources and omnidirectional hydrophones. Sea-surface backscattering data for frequencies in the 6–25 k Hz range and wind speeds of(3.0±0.5)and(4.5±1.0) m/s were obtained from two adjacent experimental sites, respectively. Computation of sea-surface backscattering strength using bistatic transducer is described. Finally, we calculated sea-surface backscattering strengths at grazing angles in the range of 16°–85°. We find that the measured backscattering strengths agree reasonably well with those predicted by using second order small-roughness perturbation approximation method with "PM" roughness spectrum for all frequencies at grazing angles ranged from 40° to 80°. The backscattering strengths varied slightly at grazing angles of 16°–40°, and were much stronger than roughness scattering. It is speculated that scattering from bubbles dominates the backscattering strengths at high wind speeds and small grazing angles. At the same frequencies and moderate to high grazing angles, the results show that the backscattering strengths at a wind speed of(4.5±1.0) m/s were approximately 5 d B higher than those at a wind speed of(3.0±0.5) m/s. However, the discrepancies of backscattering strength at low grazing angles were more than 10 d B. Furthermore the backscattering strengths exhibited no significant frequency dependence at 3 m/s wind speed. At a wind speed of 4.5 m/s, the scattering strengths increased at low grazing angles but decreased at high grazing angles with increasing grazing angle.