In-situ orifice calibration for reversing oscillating flow and improved performance prediction for oscillating water column model test experiments

Alan Fleming, Gregor Macfarlane
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引用次数: 14

Abstract

Performance characterization of oscillating water column (OWC) wave energy converters (WEC) is commonly assessed by conducting physical scale model experiments of OWC models fitted with orifice plates to the air chamber to both; simulate the power take off (PTO), and measure the air flow rate. Generally it is assumed that a single calibration factor can be used for bi-directional air flow measurement, however this paper shows the assumption can be in-accurate and that it is necessary to have separate inflow and outflow calibration factors. This paper presents (i) a novel method for in-situ calibration of an orifice and (ii) a simple algorithm to reduce noise during air flow reversal (low air chamber pressure differential). Application of this technique results in more accurate flow rate prediction and consequently, better prediction of the power absorbed by the power take-off for OWCs.

反振荡流孔板原位标定及改进的振荡水柱模型试验性能预测
振荡水柱(OWC)波浪能转换器(WEC)的性能特性通常是通过在气室上安装孔板的OWC模型进行物理比例模型实验来评估的;模拟动力起飞(PTO),并测量空气流量。通常假设双向气流测量可以使用单个校准因子,但本文表明该假设可能不准确,需要单独设置流入和流出校准因子。本文提出了(i)一种新的孔板原位校准方法和(ii)一种简单的算法来降低气流反转时的噪声(低气室压差)。应用该技术可以更准确地预测流量,从而更好地预测空压机功率输出所吸收的功率。
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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