Interconnection strategies of point absorber type wave energy converters and rectifier units

2018 18th International Conference on Harmonics and Quality of Power (ICHQP) Pub Date : 2018-05-01 DOI:10.1109/ICHQP.2018.8378930

J. Loncarski, Deepak E. Soman, E. Frontoni

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Abstract

Direct-driven point absorber type tubular wave energy converters, reflect the random nature of wave energy input to its output voltage waveform. The better conditions in the generator output stage are the first step that allows the reduction in the need of complicated power conversion system. This work presents the preliminary analysis and comparison of two important interconnection strategies of WEC-rectifier units. Two different interconnection strategies are considered based on how they build up the DC-link, i.e. parallel (well- known and used by many researchers in wave area) and cascaded (less considered) configuration of WEC-rectifier units. Conventional two-level AC/DC/AC power conversion system is used in both cases. Matlab/Simulink based system simulation is used to compare the different interconnection strategies. Various results are presented and discussed, together with the voltage ripple calculations of the DC-link voltage and output phase voltage and current, being it important for the sizing and the cost of the system.

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点吸收型波能转换器与整流装置的互联策略

直接驱动的点吸收式管状波能转换器，其输出电压波形反映了波能输入的随机性。发电机输出阶段条件的改善是减少复杂的功率转换系统需求的第一步。本文对两种重要的无碳化整流装置互联策略进行了初步的分析和比较。基于它们如何建立直流链路，考虑了两种不同的互连策略，即并联(众所周知并被许多波浪领域的研究人员使用)和级联(较少考虑)的wecc整流器单元配置。两种情况下均采用常规的两电平AC/DC/AC电源转换系统。利用Matlab/Simulink对系统进行仿真，比较不同的互连策略。给出并讨论了各种结果，以及直流链路电压和输出相电压和电流的电压纹波计算，这对系统的规模和成本很重要。

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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2018 18th International Conference on Harmonics and Quality of Power (ICHQP)

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