Hybrid Renewable Energy Systems Sizing for Offshore Multi-Purpose Platforms

Volume 10: Ocean Renewable Energy Pub Date : 2019-11-11 DOI:10.1115/OMAE2019-96017

L. F. Recalde, H. Yue, W. Leithead, O. Anaya‐Lara, Hongda Liu, J. You

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引用次数: 6

Abstract

Integrating marine renewables and aquaculture is a complex task. The generated power of each renewable technology depends on its source cycle (wind, wave, solar PV), leading to periods of zero power production. On the other side, aquaculture farms require smooth and stable power supply since any power shortage can lead to the loss of the entire farm production. This paper illustrates the sizing of a hybrid energy system (wind,solar PV, energy storage) to power up the aquaculture farm. The sizing is based on available commercial technology and the system is mounted on a single multi-purpose platform. Reliability is improved by considering device redundancies. Such hybrid system has not been considered before for aquaculture farms. System rough sizing, based on simple online renewable energy calculators, is used to select existing renewable technologies and HOMER Pro simulation software is used to evaluate the technical and economic feasibility of the microgrid for all possible combinations of the technology selected and perform sensitivity analysis on wind turbine tower height, battery state of charge and solar PV panels reflectance. The optimisation is subject to combined dispatch strategy and net present cost.

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海上多用途平台的混合可再生能源系统规模

将海洋可再生能源与水产养殖相结合是一项复杂的任务。每种可再生能源技术的发电量取决于其来源周期(风能、潮汐能、太阳能光伏)，从而导致零发电量的时期。另一方面，养殖场需要平稳稳定的电力供应，因为任何电力短缺都可能导致整个养殖场生产的损失。本文阐述了为水产养殖场供电的混合能源系统(风能、太阳能光伏、储能)的规模。尺寸是基于可用的商业技术，系统安装在一个单一的多用途平台上。通过考虑设备冗余来提高可靠性。这种杂交系统以前从未考虑过用于水产养殖场。基于简单的在线可再生能源计算器，使用系统粗略尺寸来选择现有的可再生能源技术，并使用HOMER Pro仿真软件对所选技术的所有可能组合进行微电网的技术和经济可行性评估，并对风力涡轮机塔高、电池充电状态和太阳能光伏板反射率进行敏感性分析。优化受调度策略和净现值的影响。

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

Volume 10: Ocean Renewable Energy

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