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中文核心期刊

一种中频底质声学原位测量系统研制与应用

Development and application of an in-situ geoacoustic measurement system for mid-frequency band

  • 摘要: 本文研制了一种基于高频微振动贯入技术的中频底质声学原位测量系统, 用于海底沉积物中频声速和声衰减系数的原位测量。该系统由机械液压、声学换能器、声波发射采集、总体控制和辅助测量等五个子系统组成。提出了一种“高频–同速–反向–双振动电机”技术, 并将其作为探杆贯入的动力来源, 在提高贯入深度和速度的同时, 减小了振动对沉积物的扰动。自主研制的发射换能器工作频带可覆盖1~20 kHz, 小型接收换能器灵敏度优于−196 dB, 通过高保真CW脉冲的发射提高了声速和声衰减系数的计算精度。近海测试表明, 该系统工作稳定可靠, 主要技术指标达到设计要求。2025年4月, 该系统搭载“向阳红01”号科考船在中国南海北部陆架开展了62个站的底质声学原位测量, 获得了海底沉积物中频声速和声衰减系数, 可为海洋声场精确预报提供重要的环境数据支撑。

     

    Abstract: This paper presents an in-situ geoacoustic measurement system for mid-frequency band based on high-frequency micro-vibration penetration technology, designed for in-situ measurement of mid-frequency sound speed and attenuation coefficients of seafloor sediments. The system consists of five subsystems: mechanical-hydraulic, transducers, sound wave transmission and acquisition, control, and auxiliary measurement. A “high-frequency, synchronous-speed, reverse-rotation, double vibration-motors” technique was innovatively proposed to serves as the driving force for probe penetration, which enhanced penetration depth and speed while reducing sediment disturbance caused by vibration. The independently developed transmitting transducer can cover a frequency band of 1 kHz to 20 kHz, while the receiving transducer achieves a sensitivity better than –196 dB. Transmitting high-fidelity CW pulses improves the accuracy of sound speed and attenuation coefficients of seafloor sediments. Offshore tests demonstrated that the system operates stably and reliably, with the key technical specifications meeting design requirements. In April 2025, the system was deployed aboard the R/V “Xiangyanghong 01” and finished 62 stations of in-situ geoacoustic measurements on the northern continental shelf of the South China Sea, obtaining mid-frequency sound speed and attenuation coefficients of the seafloor sediments. It can provide important environmental data support for accurate prediction of ocean sound field.

     

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