康涅狄格河中低频声波传播

Proc. Meet. Acoust. Pub Date : 2018-06-21 DOI:10.1121/2.0000811

D. B. Reeder, D. Honegger, J. Joseph, C. McNeil, Tarry Rago, D. Ralston

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引用次数: 2

摘要

河口是一个受约束的环境，在涨潮时常形成盐楔，在退潮时形成淡水羽流，其结构是潮汐幅度和推进速度、河流流量和河口形态的复杂函数。2017年6月，在康涅狄格河进行了现场实验，目的之一是研究河流盐楔和河口外羽流的低至中频声波传播特性。在几个潮汐周期中采集了500 ~ 2000 Hz波段的线性调频声信号。数据分析表明，在这种高能量环境中，这些特征对声传播的影响程度;主要机制是边界相互作用、盐楔声速梯度和退潮羽前缘的气泡云。河口是一个受约束的环境，在涨潮时常形成盐楔，在退潮时形成淡水羽流，其结构是潮汐幅度和推进速度、河流流量和河口形态的复杂函数。2017年6月，在康涅狄格河进行了现场实验，目的之一是研究河流盐楔和河口外羽流的低至中频声波传播特性。在几个潮汐周期中采集了500 ~ 2000 Hz波段的线性调频声信号。数据分析表明，在这种高能量环境中，这些特征对声传播的影响程度;主要机制是边界相互作用、盐楔声速梯度和退潮羽前缘的气泡云。

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Acoustic propagation at low-to-mid-frequencies in the Connecticut River

An estuary is a constrained environment which often hosts a salt wedge during flood and a fresh water plume on ebb, the structures of which are complex functions of the tide’s range and speed of advance, river discharge volumetric flow rate and river mouth morphology. A field experiment was carried out in the Connecticut River in June 2017, one goal of which was to investigate the low-to-mid-frequency acoustic propagation characteristics of the riverine salt wedge as well as the plume outside the river mouth. Linear frequency-modulated (LFM) acoustic signals in the 500-2000 Hz band were collected during several tidal cycles. Data analyses demonstrate the degree to which these features in this highly energetic environment impact acoustic propagation; dominant mechanisms are boundary interactions, salt wedge sound speed gradients and bubble clouds at the ebb plume front.An estuary is a constrained environment which often hosts a salt wedge during flood and a fresh water plume on ebb, the structures of which are complex functions of the tide’s range and speed of advance, river discharge volumetric flow rate and river mouth morphology. A field experiment was carried out in the Connecticut River in June 2017, one goal of which was to investigate the low-to-mid-frequency acoustic propagation characteristics of the riverine salt wedge as well as the plume outside the river mouth. Linear frequency-modulated (LFM) acoustic signals in the 500-2000 Hz band were collected during several tidal cycles. Data analyses demonstrate the degree to which these features in this highly energetic environment impact acoustic propagation; dominant mechanisms are boundary interactions, salt wedge sound speed gradients and bubble clouds at the ebb plume front.

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Proc. Meet. Acoust.

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