Oscillating water column control and monitoring

机译：振荡水柱控制和监测

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This article covers research into cost reduction pathways for wave energy. The primary focus is the development and test of reliable and controllable power take-off (PTO) technology for oscillating water column converters (OWC). This is highly relevant to the ocean energy challenge. Extensive testing via data of the NEREIDA MOWC demonstration project, a breakwater wave plant located in the Basque location of Mutriku, using Wells turbines and Doubly Fed Induction (DFIG) generators is proposed to advance wave energy converter (WEC) devices. The control tests involve the integration of the PTO technology within a new variable controller for OWC wave power generation plants. Due to the nature of the control law, it allows monitoring faults caused by parametrical errors or system disturbances. The reliability tests by means of analysing the electrical signals have been conceived as conditioning monitoring, detection of mechanical faults and hardware damaging also fulfil a secondary aim for the reduction of maintenance cost and unscheduled downtime during operation of OWC plants.

机译：本文涵盖了波动能量降低途径的研究。主要重点是用于振荡水柱转换器（OWC）可靠和可控的功率起飞（PTO）技术的开发和测试。这与海洋能源挑战非常相关。通过Nereida MoWC示范项目的数据进行广泛测试，建议使用井涡轮机和双馈感应（DFIG）发电机位于Mutriku的巴斯克风味位置的防波堤波工厂来推进波能量转换器（WEC）器件。控制测试涉及PTO技术在新的可变控制器内集成OWC波发电设备。由于对照法的性质，它允许监控由参数误差或系统干扰引起的故障。通过分析电信号的可靠性测试被认为是调理监测，机械故障和硬件损坏的检测也实现了在OWC工厂运行期间减少维护成本和未安排停机的二级目标。

著录项

来源
《OCEANS 2016 MTS/IEEE Monterey》|2016年|1 v.|共6页
会议地点
作者
Izaskun Garrido; Aitor J. Garrido; Jon Lekube; Erlantz Otaola; Edorta Carrascal;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类信号处理;
关键词
Turbines; Rotors; Torque; Generators; Stators; Monitoring; Observers;

机译：涡轮机;转子;扭矩;发电机;定子;监测;观察者;

相似文献

外文文献
中文文献
专利

1. Water cycle algorithm-based airflow control for oscillating water column-based wave energy converters [J] . Mzoughi Fares, Bouallegue Soufiene, Garrido Aitor J., Proceedings of the Institution of Mechanical Engineers . 2020,第1期

机译：基于水循环算法的气流控制，用于振荡基于水柱的波能转换器
2. Estimation of Water Column Surface Displacement of a Fixed Oscillating Water Column by Simple Mechanical Model with Determination of Hydrodynamic Parameters via Physical Experimental Model [J] . Anil Celik, Abduesselam Altunkaynak 日本建築学会计画論文集 . 2020,第5期

机译：简单机械模型估计固定振荡水柱的水柱表面位移与物理实验模型测定流体动力学参数
3. Experimental analysis of a water column and structure heave velocity relationship for a floating oscillating water column wave energy device [J] . York Stanham, Timothy J. McCarthy, Brad Stappenbelt Australian Journal of Mechanical Engineering . 2018,第3期

机译：浮动振荡水柱波能量装置的水柱和结构升速关系的实验分析
4. Oscillating water column control and monitoring [C] . Izaskun Garrido, Aitor J. Garrido, Jon Lekube, OCEANS 2016 MTS/IEEE Monterey . 2016

机译：振荡水柱控制和监测
5. Study of Wave Interaction with Vertical Piles Integrated with Oscillating Water Columns [D] . Xu, Conghao. 2018

机译：摆式水柱与竖桩的波浪相互作用研究
6. ANN-Based Airflow Control for an Oscillating Water Column Using Surface Elevation Measurements [O] . Fares M’zoughi, Izaskun Garrido, Aitor J. Garrido, 2020

机译：使用表面高程测量的摆动水塔基于ANN的气流控制
7. Model predictive Control-based power take-off control of an oscillating water column wave energy conversion system [O] . Rajapakse, G., Jayasinghe, S.G., Fleming, A., 2017

机译：基于模型预测控制的振荡水柱波能量转换系统的取力控制

Oscillating water column control and monitoring

摘要

著录项

相似文献

相关主题

期刊订阅