基于概率模型的微电网DER分级多目标分析

2019 International Conference on Electrical, Communication, and Computer Engineering (ICECCE) Pub Date : 2019-07-01 DOI:10.1109/icecce47252.2019.8940702

A. Waqar, Muhammad Nawaz, M. Aamir, Imtiaz Alam, Syed Umaid Ali, Jehanzeb Ahmad

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引用次数: 2

摘要

风能和太阳能等自然灾害的间歇性使它们成为随机变量。因此，它们的规模问题可能导致不现实的微电网。在本文中，作者提出了使用概率模型来处理这种间歇性。本文提出了一种算法，通过将时间序列拟合成水平和垂直的概率分布来估计DER资源数据矩阵。将可再生能源的规模建模为一个多目标优化问题，以同时最小化可再生能源的总净当前成本和环境排放的处理成本。基于时间序列的强制拟合和最佳拟合对两类资源数据矩阵进行了估计。利用HOMER Legacy软件进行了仿真。利用判断矩阵将多个目标转化为单个目标，并对基于资源数据矩阵的确定性、概率最佳拟合和概率强制拟合微电网模型进行了比较。

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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Multi-Objective Analysis of DER Sizing in Microgrids using Probabilistic Modeling

The intermittent nature of DERs like wind and solar designates them as random variables. As a result, their sizing problem may result in an unrealistic microgrid. In this paper, authors have proposed the use of probabilistic models to deal with this intermittency. An algorithm has been developed to estimate a DER resource-data matrix by fitting a time-series into a probability distribution both horizontally and vertically. The DER sizing has been modeled as a multi-objective optimization problem to simultaneously minimize the total net present cost of DERs and treatment cost of environmental emissions. Two types of resource-data matrices have been estimated based on forced and best fitting of time-series. Simulations have been performed by using HOMER Legacy. The multiple objectives have been converted to a single objective by using a judgment matrix and a comparison has been made among deterministic, probabilistic best-fit and probabilistic forced-fit resource-data matrices' based microgrid models.

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2019 International Conference on Electrical, Communication, and Computer Engineering (ICECCE)

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