Evaluating the resilience benefits of marine energy in microgrids

Q3 Engineering

International Marine Energy Journal Pub Date : 2022-10-07 DOI:10.36688/imej.5.143-150

Sarah Newman, Dhruv Bhatnagar, R. O'Neil, A. Reiman, Danielle Preziuso, B. Robertson

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引用次数: 2

Abstract

Marine energy resources could promote clean energy and resilience of coastal and island microgrids, and thus, these applications are a key future market for marine energy development. To demonstrate these benefits, this paper illustrates how inclusion of wave resources into energy resilience solutions can improve overall grid efficiency and sustainability, as well as maintain electricity supply during grid outages. The paper describes a case study evaluation of the potential to add wave energy to the Moloka'i grid as Hawaii strives to meet a 100% clean energy target. The Microgrid Component Optimization for Resilience tool is used to simulate operation in off-grid conditions and size different combinations of wave, solar photovoltaic (PV), wind, storage, and fuel resources required to meet resilience objectives. This research investigates how including wave resources in a microgrid contributes to reducing or eliminating biofuel generation, producing a zero-greenhouse gas emission profile in the latter case, and avoiding the over-sizing of PV and battery systems to accommodate periods of unavailability or high demand. Insight from this paper supports the value proposition of wave resources for future markets and informs the relationship between marine generators and microgrids or isolated grids.

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评估微电网中海洋能源的弹性效益

海洋能源可以促进沿海和岛屿微电网的清洁能源和复原力，因此，这些应用是海洋能源发展的一个关键未来市场。为了证明这些好处，本文说明了将波浪资源纳入能源弹性解决方案如何提高整体电网效率和可持续性，以及在电网中断期间维持电力供应。这篇论文描述了一个案例研究，评估了在夏威夷努力实现100%清洁能源目标的同时，向Moloka'i电网增加波浪能的潜力。微电网组件弹性优化工具用于模拟离网条件下的运行，并对满足弹性目标所需的波浪、太阳能光伏(PV)、风能、储能和燃料资源的不同组合进行大小调整。本研究探讨了在微电网中包括波浪资源如何有助于减少或消除生物燃料的产生，在后一种情况下产生零温室气体排放，并避免光伏和电池系统的过大规模，以适应不可用或高需求的时期。本文的见解支持波浪资源对未来市场的价值主张，并告知船舶发电机与微电网或孤立电网之间的关系。

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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来源期刊

International Marine Energy Journal Engineering-Ocean Engineering

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

12 weeks