共查询到19条相似文献,搜索用时 109 毫秒
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为研究小尺度海底沉积物样品的声衰减特性,作者提出了用声学探针测量海底沉积物声波幅值的新方法,对沉积物样品扰动小,两个测量点的距离可小于波长,为海底沉积物微观声衰减测量提供了新手段。作者用小于波长的间隔逐点测量了沉积物的压缩波幅值,数据分析表明沿沉积物柱状样全长的声衰减满足指数衰减模型。目前主要用同轴差距衰减测量法获得海底沉积物声衰减数据,但该方法不能辨识声衰减模型,因此不同海区的测量结果难以建立联系。对此作者又提出用声吸收系数反演的幅值比与声衰减系数反演的R值(两种幅值比的比值)作评价依据,分析了垂直轴差距衰减测量法获得的南海海底沉积物声衰减测量数据,发现部分沉积物样品声衰减的R值远大于1,其声衰减不满足指数衰减模型。在声衰减满足指数衰减模型的条件下,用Hamilton的声衰减和频率经验公式预报的南海沉积物声衰减比与作者用声学探针测量海底沉积物所得的声衰减比对比,通过对R值分析得出Hamilton的声衰减和频率经验公式可以预报南海沉积物声衰减比的范围。作者提出的声学探针测量海底沉积物声衰减的方法的优点是既能获得声衰减数据又能辨识声衰减模型,不同海区测量的沉积物声衰减比可用R值建立联系。 相似文献
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珠江口伶仃洋海底沉积 总被引:2,自引:0,他引:2
在前人工作的基础上,利用2003—2005年广州海洋地质调查局1∶10万《珠江三角洲近岸海洋地质环境与地质灾害调查》项目的实测资料,综合分析了伶仃洋海底的沉积特征,认为伶仃洋表层沉积物类型有:砂、黏土质砂、砂-粉砂-黏土、砂质黏土、黏土质粉砂、粉砂质黏土等6种类型。伶仃洋晚更新世以来的海底地层主要有两套:层A为全新世冰后期海侵以来逐渐堆积而成的沉积物,钻孔揭示的沉积物类型主要为黏土质砂和砂—粉砂—粉砂质黏土;层B为一套晚更新世的黏土质粉砂、细砂—粗砂(含砾)、粉砂质黏土—黏土,以陆相沉积和剥蚀为主,局部为海陆交互相沉积,其下地层则为基岩风化物和基岩。 相似文献
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青岛海岸带及邻近海域地形和沉积物类型研究 总被引:2,自引:0,他引:2
研究了青岛海岸带及邻近海域的地形特征、沉积物类型及分布特征。总体看来,沿海岸粒度较粗,为砂、粉砂质砂等,向海深处粒度有逐渐变细的趋势,海深处的沉积物主要为砂—粉砂—黏土,局部为粉砂质黏土、黏土质粉砂和黏土质砂。灵山岛周围,沉积物粒度较粗。胶州湾口内外为一海底深槽,水深流急,冲刷强烈,沉积物粒度非常粗,主要为粗砂、中砂,局部有基岩出露。深槽南北两侧各有一条突出海底的砂脊,平行于深槽延伸方向砂脊由中砂组成,混有少量黏土,北侧砂脊表面呈不规则起伏,南侧砂脊表面则较为平整。胶州湾内沉积物粒度总体较细,主要为粉砂质黏土、黏土质粉砂及砂—粉砂—黏土等。根据沉积物类型及分布特征,可把青岛海岸带及邻近海域的沉积划分为4个沉积区:胶州湾口及滨岸现代沉积区、北部浅海沉积区、南部浅海沉积区和残留—残余沉积区。 相似文献
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基于同轴差距测量法的南海深水海底沉积物声衰减特性研究 总被引:4,自引:3,他引:1
通过分析沉积物声波测量过程能量损失的实质,阐述平行轴差距衰减测量法和垂直轴差距衰减测量法的研究基础——差动式衰减测量方法原理,并推导了其衰减系数公式。根据南海沉积物的柱状样品分装的特点,结合以上两种方法,提出了同轴差距衰减测量法,这种方法具有原理上的合理性并且其可操作性强;运用此方法测量了沉积物在常温和温度控制变化条件下的声波信号,计算了衰减系数,研究了温度对沉积物声波传播能量的影响,得出南海深水海底沉积物具有以下声衰减特性:沉积物含砂量高,声衰减系数大;随着温度的升高,沉积物的声衰减系数变化具有不均匀性,整体呈非线性减小趋势。以上研究将为声学遥测和反演海底沉积物的物理力学特性提供数据和方法支持。 相似文献
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基于中国渤黄海120个表层沉积物粒度分析,研究了其表层沉积物分布特征与物源和水动力的关系。结果表明,研究区底质类型主要有黏土质粉砂、粉砂、砂质粉砂、粉砂质砂、砂和砂-粉砂-黏土6种类型,以砂质粉砂和黏土质粉砂为主,整体粒度较细、分选较差,在老铁山水道、莱州湾、北黄海北部等水动力较强区域分选相对较好且沉积物粒径相对偏粗。根据沉积物粒度参数、物源、输运路径将研究区划为5个沉积区,分别为渤海湾、滦河口粉砂沉积区,黄河口、莱州湾砂质沉积区,渤海中部粉砂质沉积区,北黄海西部黏土质粉砂沉积区,北黄海北部砂质沉积区。物源和水动力条件控制了研究区沉积物粒度分布。 相似文献
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海底沉积物声学物理力学性质聚类分析研究 总被引:1,自引:1,他引:0
Stoll、Hamilton等分别从理论和实测方面出发研究海底沉积物声学与物理力学性质关系,这两类研究都是将声学性质作为独立性质从沉积物的物理性质中提取出来,以两者作为因果关系进行研究,割裂了其内在统一性.本文不试图建立声学与物理力学性质的经验方程,而是综合考虑海底沉积物声学、物理力学性质,对南海大陆坡和人陆架沉积物进行聚类研究,分析南海海底沉积物共有的性质.研究表明聚类分析方法为海底沉积物性质研究提供了一种有效的分类手段,通过聚类,得出如下结论:(1)声速与孔隙度、密度等物理力学性质存在着明显的单调相关性,可以通过某些物理力学参数来预报沉积物的声速,同时可以通过测量沉积物声速反演沉积物的某些物理力学参数;(2)海底沉积物的声速和地文单元、沉积物的颗粒成份组成有关;(3)火陆坡黏土质粉砂、粉砂、砂质粉砂和大陆架粉砂、砂质粉砂、粉砂质砂的压缩波速依次增大,切变波速依次减小;(4)海底沉积物声学与物理力学性质聚类分析研究,可以作为海底沉积物的声学探测的参考依据. 相似文献
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对南海北部224个表层沉积物样品的粒度组成和碳酸盐含量进行了测试和分析,探讨了沉积物的运移方式及其沉积环境。结果表明,南海北部表层沉积物可划分为砾砂、粗砂、中砂、细砂、粉砂质砂、砂质粉砂、砂-粉砂-黏土、黏土质粉砂、粉砂质黏土、黏土等类型,其中深海-半深海沉积物又可分为:硅质黏土、钙质黏土、含钙质和硅质黏土、有孔虫砂、钙质黏土质粉砂、钙质砂-粉砂-黏土、硅质黏土质粉砂。粉砂质黏土、黏土质粉砂、砂、砂质粉砂、黏土是分布最广泛的沉积物类,约占该区面积的80%以上。同时对粒度相关参数和碳酸盐含量进行了因子统计分析并作沉积环境分区,结果表明上述参数可分为3类因子,将研究区分为4类区域。因子1作用于Ⅰ、Ⅱ两个区域。Ⅰ区为黏土级沉积区,主要分布在研究区东南部水深较大的海域;Ⅱ区为中、细砂质沉积区,主要分布在粤西外大陆架和华南大陆沿海。因子2作用于Ⅲ区,为粗、中粉砂质沉积区,主要分布在琼东南、珠江口外海大陆坡以及台西南外大陆架。因子3作用于Ⅳ区,为粗砂质沉积区,主要分布在台西南内大陆架海域。 相似文献
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《中国海洋大学学报(自然科学版)》2017,(10)
为探究内孤立波作用下陆坡坡面沙波形成机制,在室验水槽内模拟恒定振幅下凹型内孤立波对砂质粉砂、黏土质粉砂、细砂三种沉积物坡面连续作用过程,利用超声地形自动测量分析系统(TTMS)、电阻率探针、温盐深仪(RBR·CTD)分别监测内孤立波作用前后土坡高程变化,作用过程水土界面实时变化及悬浮物浓度时空变化,基于测试结果分析沉积物悬浮、运移及沉积过程特征。研究表明,沙波形成过程中不同类型沉积物悬浮-运移方式不一致,在恒定振幅内孤立波作用下,砂质粉砂发生悬浮向坡顶运移,其中较大的颗粒在坡顶发生沉积,较小颗粒沿坡面运移到坡底;黏土质粉砂发生悬浮后同时向坡顶和坡中运移,在坡顶和坡中位置形成雾状层沿等密度层水平扩散;砂质粉砂运移方式主要为推移质运动,黏土质粉砂主要为悬移质运动。内孤立波形成的沙波体坡顶无尖刃,较为圆滑,两坡不对称,迎流面薄,背流面厚。 相似文献
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报道了南海浅海海底沉积物的声衰减性质。给出了测量和计算海底沉积物声衰减的方法。分析讨论了不同频率下的声衰减以及与若干个海底沉积物物理参数的关系,结果表明,同一类型沉积物在高频段时的声衰减要比低频段的声衰减大;同一频段下粗颗粒沉积物的声衰减要比细颗粒的声衰减大;北部湾海底浅层沉积物声衰减在低频100kHz下为80~150dB/m,在高频1MHz下为150~360dB/m;海南岛南部外海海底浅层沉积物声衰减在低频下为66~160dB/m,在高频1MHz下为190~350dB/m;高频段的数据与台湾海峡北部海底表层沉积物声衰减测量分析数据比较接近,而低频段的数据与台湾海峡北部海底表层沉积物声衰减测量分析数据有较大的差别。 相似文献
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Lei Sun Xiangmei Meng Guanbao Li Guangming Kan Baohua Liu 《Marine Georesources & Geotechnology》2020,38(5):595-603
AbstractThe high-frequency acoustic properties of seafloor sediments are very significant in seafloor study and underwater acoustic study field. In order to measure the sound speed and the attenuation for the small-scale sediment cores more accurately, this study developed a water coupled acoustic laboratory measurement system based on Richardson-Briggs technique. This method used the correlation comparison of waveforms received in sediment core and in identical reference tubes filled with water to measure sound speed and attenuation. The sound speed and attenuation of a clayey silt sediment sample were measured using the water coupled acoustic laboratory measurement system. This frequency dependence of the sound speed and attenuation showed that the clayey silt sediment has a weak positive sound speed dispersion, while the attenuation increases with a strong positive gradient within the measurement frequency range. This study also noted that the measured sound speed ratio match well with the empirical equations from literature. The measured attenuation factor data can fall in the Hamilton’s empirical prediction range. 相似文献
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对2007年采自越南红河水下三角洲北区24个表层沉积物样品进行了粒度分析和粒度参数计算,初步探讨了该区沉积物的主要类型及分布特征。结果表明,越南红河水下三角洲北区的表层沉积物主要由粉砂组成(体积平均含量为54.35%),平均粒径为6φ。按Link沉积物命名法,该区沉积物主要类型有砂、砂质粉砂和黏土质粉砂。水平分布上,由西部的砂向东逐渐变为黏土质粉砂,呈现出由近岸三角洲前缘相的粗粒级沉积物逐渐向前三角洲-浅海相的细粒级沉积物变化的趋势。与前人研究成果对比发现,红河水下三角洲北区沉积物黏土的比例较1996年的比例明显增大,可能与海岸线近10a来总体上呈向陆迁移、水下三角洲沉积向岸蚀退以及纵向上水动力逐渐变弱有关。 相似文献
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Guangming Kan Baohua Liu Xiangmei Meng Guanbao Li Qingfeng Hua 《Marine Georesources & Geotechnology》2018,36(7):853-860
To accurately characterize sound speed dispersion of shallow sediments in the Southern Yellow Sea, three types of sediments, i.e., silt, clayey silt, and silty clay, were selected to measure the sound speeds at 25–250?kHz. Over the frequency range, the sound speeds vary approximately from 1,536 to 1,565?m?s?1 in silt sediment, from 1,511 to 1,527?m?s?1 in clayey silt sediment, and from 1,456 to 1,466?m?s?1 in silty clay sediment. The sound speed exhibits a slow increase with frequency in a nearly linear gradient, but these three types of sediments have different sound speed dispersion characteristics. The silt sediment with relatively coarse grains has the most significant sound speed dispersion, while the sound speed dispersions of the two others are relatively weak. Comparison between the measured dispersions and the model predictions shows that the grain-shearing model can match the measured data at most of frequencies. Nevertheless, when the grain bulk modulus was assigned 3.2?×?1010?Pa according to relevant references, the Biot–Stoll model predictions were higher than the measured values at high frequencies; when it was assigned a relatively small value of 2.8?×?1010?Pa, the model predictions achieved optimal matching with the measured values. 相似文献
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The approach to determine working frequencies of acoustic in-situ detector for seafloor hydrothermal fluid is presented. Based on the research of deep-sea noise and the sound generated by mid-ocean ridge black smoker hydrothermal vents, and on the hydrothermal-vent animal hearing ranges, coupled with influences of suspended particles of hydrothermal on acoustic attenuation under different frequencies, the optimal frequency range for detection of acoustical signal near black smokers is determined. The optimal frequencies providing the maximum ratio of receiver signal to background noise are obtained. We have developed a laboratory experimental setup for the optimal frequencies selection. In particular, we evaluated time-of-flight performance with respect to the source signal parameters of center frequency and bandwidth. The experimental results confirm the effectiveness of our approach. Current results indicate that individual transducers operated in the range of 18 ~ 25 kHz are immune to most interfering sounds and suitable for our system. 相似文献
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Robb G.B.N. Best A.I. Dix J.K. White P.R. Leighton T.G. Bull J.M. Harris A. 《Oceanic Engineering, IEEE Journal of》2007,32(2):484-496
Geoacoustic inversion requires a generic knowledge of the frequency dependence of compressional wave properties in marine sediments, the nature of which is still under debate. The use of in situ probes to measure sediment acoustic properties introduces a number of experimental difficulties that must be overcome. To this end, a series of well-constrained in situ acoustic transmission experiments were undertaken on intertidal sediments using a purpose-built in situ device, the Sediment Probing Acoustic Detection Equipment (SPADE). Compressional wave speed and attenuation coefficient were measured from 16 to 100 kHz in medium to fine sands and coarse to medium silts. Spreading losses, which were adjusted for sediment type, were incorporated into the data processing, as were a thorough error analysis and an examination of the repeatability of both the acoustic wave emitted by the source and the coupling between probes and sediment. Over the experimental frequency range and source-to-receiver (S-R) separations of 0.99-8.1 m, resulting speeds are accurate to between 1.1% and 4.5% in sands and less than 1.9% in silts, while attenuation coefficients are accurate to between 1 and 7 dBm in both sands and silts. Preliminary results indicate no speed dispersion and an attenuation coefficient that is proportional to frequency. 相似文献
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The shallow refracted path through sea floor sediments plays a significant role in the transmission of acoustic energy at low frequencies. For bottom grazing angles of 90/spl deg/ to 25/spl deg/, low-frequency acoustic energy was observed to come from reflected paths. For bottom grazing angles of 25/spl deg/ to 10/spl deg/ the dominant source of low-frequency acoustic energy is from shallow refracted paths through the sediments. At angles less than 10/spl deg/, low-frequency acoustic energy is received from both the refracted and the reflected paths. The refracted path is possible because of the positive gradient within the sediment. The sudden emergence of the refracted arrival is related to the overall sound path length in the sediment and sediment absorption of sound. Since sediment absorption is directly proportional to frequency, only low-frequency energy is transmitted via this path. The refracted path may well exist where unconsolidated sediments of at least a few hundred feet are present. 相似文献
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A linear FM sonar system was developed to support the objective of remote acoustic classification of seafloor sediments. It is a calibrated, wideband, digital, frequency modulated sonar that provides quantitative, high-resolution, low-noise sub-bottom data. Since the linear sonar system can precisely transmit a specified waveform, the calibrated digitally recorded reflection data can be processed to estimate the acoustic impulse response of the seabed and sediment attenuation. An acoustic pulse with special frequency domain weighting characteristics is designed to provide low temporal sidelobe levels and a nearly constant resolution with depth even after passing through a sediment with high losses such as sand. After correlation processing, the wideband acoustic pulse yields an effective beam pattern with high spatial resolution and insignificant sidelobe levels. Data sets generated with the FM profiler indicate that the required temporal and spatial characteristics of the sonar are realized in practice 相似文献