Design diagrams for wavelength discrepancy in tank testing with inconsistently scaled intermediate water depth

International Journal of Marine Energy Pub Date : 2017-06-01 DOI:10.1016/j.ijome.2017.04.001

Donald R. Noble , Samuel Draycott , Thomas A.D. Davey , Tom Bruce

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引用次数: 8

Abstract

The well-known dispersion relation links the length and period of a water wave with the depth in which it propagates. When model testing in tanks, the water depth should be consistently scaled to correctly replicate the waves. While this is done routinely by scaling foreshore bathymetry in coastal engineering physical model studies, and is not significant for deep water scenarios, this is not always considered when testing marine renewable energy devices, which are often in intermediate depth. Where water depth is not scaled consistently there will be resulting errors in wave parameters including wavelength, steepness, celerity, group velocity, and power. Design diagrams are presented to quantify and visualise these discrepancies over a typical range for testing offshore renewable energy devices. This design tool will facilitate experimental planning, quantification of uncertainties, and correlation of model test results with field data.

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中间水深比例不一致的水箱试验中波长差异的设计图

众所周知的色散关系将水波的长度和周期与其传播的深度联系起来。在水箱中进行模型测试时，应始终按比例调整水深，以正确地复制波浪。虽然在海岸工程物理模型研究中，这通常是通过缩放前海岸测深来完成的，并且对于深水场景并不重要，但在测试海洋可再生能源设备时并不总是考虑到这一点，因为海洋可再生能源设备通常处于中等深度。如果水深的比例不一致，将导致波浪参数的误差，包括波长、陡度、速度、群速度和功率。在测试海上可再生能源设备的典型范围内，给出了设计图来量化和可视化这些差异。该设计工具将有助于实验计划，量化不确定性，以及模型试验结果与现场数据的相关性。

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International Journal of Marine Energy

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