Modelling of a microgrid for high integration of renewable sources

2018 International Young Engineers Forum (YEF-ECE) Pub Date : 2018-05-04 DOI:10.1109/YEF-ECE.2018.8368942

Francisco J. Gonzalez, A. Marquez, J. I. Leon

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Abstract

Conventional grid designs have shown to be incompatible with actual requirements from operators and consumers. Integration of renewable sources, larger energy demands and changes in consumers' needs (electric vehicles charging, self-generation, etc.) cannot be satisfied with transmission schemes already deployed. For this purpose, the concept of smart grid was introduced. Smart grids aim for more distributed, flexible and controlled energy transmission from generation to consumers. Within the smart grid paradigm, the concept of microgrid was developed, as a local grid that can work together or separately from a larger grid. In this paper, different models for a microgrid are presented, according to the time-span required for simulation. This microgird is composed of several generation sources, both renewable (solar, wind), conventional (diesel generators), and storage (lithium-ion batteries). Simulation results are provided for each subsystem to evaluate transient and steady-state performance of developed control strategies. The models presented in this paper are the base for further high-level control strategies implementations.

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可再生能源高度整合的微电网建模

传统的电网设计已被证明与运营商和消费者的实际需求不兼容。现有的输电方案无法满足可再生能源的整合、更大的能源需求和消费者需求的变化(电动汽车充电、自产电等)。为此，引入了智能电网的概念。智能电网的目标是实现从发电厂到消费者的更分布式、更灵活、更可控的能源传输。在智能电网范例中，微电网的概念被开发出来，作为一个局部电网，它可以与更大的电网一起工作，也可以单独工作。本文根据仿真所需的时间跨度，提出了不同的微电网模型。这个微电网由几种发电来源组成，包括可再生能源(太阳能、风能)、传统能源(柴油发电机)和储能能源(锂离子电池)。给出了各子系统的仿真结果，以评估所开发的控制策略的暂态和稳态性能。本文提出的模型是进一步实现高级控制策略的基础。

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 International Young Engineers Forum (YEF-ECE)

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