直接波能转换场集中与分散储能管理的比较

2015 Tenth International Conference on Ecological Vehicles and Renewable Energies (EVER) Pub Date : 2015-06-01 DOI:10.1109/EVER.2015.7112985

T. Kovaltchouk, A. Blavette, H. Ben Ahmed, B. Multon, J. Aubry

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引用次数: 0

摘要

本文比较了两种控制类型的储能系统(ESS)的大小，以平滑直接波能量转换器(DWEC)农场生产，即处理PCC功率的集中式系统和处理每个单元功率生产的分散式系统。主要目的是在生命周期成本的基础上比较这两种控制。本文以SEAREV项目为例，介绍了直流波能量变换器。在这里考虑的情况下，由于闪烁约束，ESS对于电网集成是必要的，没有存储就无法满足闪烁约束。将描述储能系统(ESS)的规模和管理的优化策略:基于规则的能源管理方法取决于该ESS的能源状态以及DWEC单元或DWEC农场产生的电力。该管理策略针对不同尺寸进行了优化，以降低老化速度，同时严格遵守闪烁准则。预计最终设计将使系统总成本最小化。集中控制显然允许较小的容量，但对于农场其他部分的损失有一些缺点。

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Comparison between centralized and decentralized storage energy management for Direct Wave Energy Converter Farm

This article compares the sizes of an Energy Storage System (ESS) with two control types in order to smooth a Direct Wave Energy Converter (DWEC) Farm Production, namely a centralized one that deals with the PCC power and a decentralized one that deals with each unit power production. The main objective is to compare the two controls on the basis of their life cycle cost. The SEAREV project is the Direct Wave Energy Converter used as an example in this paper. The ESS is necessary for grid integration in the case considered here due to the flicker constraint, which is not being satisfied without storage. The optimization strategies for both the sizing and the management of an Energy Storage System (ESS) will be described: the rule-based energy management approach depends on the State of Energy of this ESS as well as the power produced by the DWEC unit or the DWEC farm. This management strategy has been optimized for each size in order to reduce aging speed while strictly respecting the flicker criterion. The final design is expected to minimize total system cost. The centralized control clearly allowed smaller capacity, but has some drawbacks for the losses in the rest of the farm.

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2015 Tenth International Conference on Ecological Vehicles and Renewable Energies (EVER)

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