A novel technique for measuring mixing using acoustic Doppler current profilers (ADCPs)

Proceedings of the IEEE/OES Eighth Working Conference on Current Measurement Technology, 2005. Pub Date : 2005-06-28 DOI:10.1109/CCM.2005.1506324

P. Wiles, J. Simpson, T. Rippeth

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引用次数: 2

Abstract

Vertical mixing in shelf seas and estuaries is an important process that dominates the transport of water properties (e.g. sediments or pollution) in the marine environment. Acoustic Doppler Current Profilers (ADCPs) have been widely used for both monitoring and research in shelf seas and estuaries. While the potential of ADCPs to measure velocity fields has been realised, recent advances in processing techniques have allowed insights into mixing processes throughout the water column. In this presentation we describe a structure function technique to estimate Turbulent Kinetic Energy dissipation rates (/spl epsiv/) that has previously been used in the atmospheric sciences and here has been applied to ADCPs. We have compared this with 2 established methods of estimating turbulent parameters in the water column: the ADCP variance method, which estimates the momentum transfer through the water column and the Fast Light Yo-yo (FLY) microstructure profiler which measures turbulent dissipation. The structure function method compares well with the FLY microstructure dissipations, with a ratio of structure function dissipation: FLY dissipation of 0.75.

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一种利用声学多普勒电流谱仪(ADCPs)测量混流的新技术

陆架海和河口的垂直混合是主导海洋环境中水性质(如沉积物或污染)运输的重要过程。声学多普勒洋流剖面仪(ADCPs)已广泛应用于陆架海和河口的监测和研究。虽然ADCPs测量速度场的潜力已经实现，但最近处理技术的进步使人们能够深入了解整个水柱的混合过程。在本报告中，我们描述了一种结构函数技术来估计湍流动能耗散率(/spl epsiv/)，该技术先前已用于大气科学，并在此应用于ADCPs。我们将其与已有的两种估计水柱湍流参数的方法进行了比较:估计水柱动量传递的ADCP方差法和测量湍流耗散的Fast Light Yo-yo (FLY)微结构剖面仪。结构函数法与FLY的微结构耗散比较好，结构函数法与FLY的耗散之比为0.75。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the IEEE/OES Eighth Working Conference on Current Measurement Technology, 2005.

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