Methodology for estimating the French tidal current energy resource

Rose Campbell, André Martinez, Camille Letetrel, Alexandre Rio
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引用次数: 17

Abstract

This paper presents a method to compute the total tidal energy resource available in French Atlantic and Channel waters. An analysis of outputs from MARS2D hydrodynamic model allowed us to identify 20 potential sites for extraction of tidal energy. These sites are presented in the form of an atlas. Four promising sites with annual average currents exceeding 2 m/s, were identified in the English Channel (Raz Blanchard, Raz Barfleur, Paimpol-Bréhat) and at the westernmost part of Brittany (Fromveur Passage).

By defining characteristics of a turbine array (spacing and power coefficient), we compute the total extractable power for three cases: high, medium and low theoretical performance. Considering the sites with average currents exceeding 1.5 m/s, the total extractable power ranges from 1.46 to 9.71 GW for the low and high performance cases. For all 20 sites, where average currents exceed 0.5 m/s, the total extractable power ranges from 2.49 to 16.58 GW for the low and high performance cases.

Finally, we focus on the most promising site: the Raz Blanchard (Alderney Race) located in the Manche department (English Channel). The variability of the current intensities and directions are presented. Within this high tidal potential site, we define a zone (12 km2) wherein the current speeds are consistently high (exceeds 2.5 m/s for at least 40% of the year studied) and most often following the NNE/SSW axis.

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估算法国潮流能源的方法
本文提出了一种计算法属大西洋和海峡水域可用潮汐能总量的方法。通过对MARS2D水动力模型输出的分析,我们确定了20个潜在的潮汐能提取地点。这些地点以地图集的形式呈现。在英吉利海峡(Raz Blanchard, Raz Barfleur, paimpol - brsamhat)和布列塔尼最西部(Fromveur通道)确定了四个年平均洋流超过2米/秒的有希望的地点。通过定义涡轮阵列的特性(间距和功率系数),我们计算了三种情况下的总可提取功率:高、中、低理论性能。考虑到平均电流超过1.5 m/s的站点,低性能和高性能情况下的总可提取功率范围为1.46 ~ 9.71 GW。对于所有20个站点,平均电流超过0.5 m/s,在低性能和高性能情况下,总可提取功率范围为2.49至16.58 GW。最后,我们将重点放在最有希望的地点:位于Manche部门(英吉利海峡)的Raz Blanchard (Alderney Race)。给出了电流强度和方向的可变性。在这个高潮势的地点,我们定义了一个区域(12平方公里),其中水流速度一直很高(在研究的一年中至少有40%的时间超过2.5米/秒),并且最经常沿着NNE/SSW轴。
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