A Scenario-Based Approach for Energy Storage Capacity Determination in LV Grids With High PV Penetration

Hashemi S.; Ostergaard J.; Yang G.

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A Scenario-Based Approach for Energy Storage Capacity Determination in LV Grids With High PV Penetration

机译：基于场景的高PV穿透力低压电网储能容量确定方法

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In this paper a new method is proposed to determine the minimum energy storage required to be installed at different locations of a low voltage (LV) grid in order to prevent the overvoltage due to high residential photovoltaic (PV) penetration. The method is based on the voltage sensitivity analysis of feasible scenarios associated with the net injected power into the grid by customers. A new concept is defined based on the remaining power curve (RPC) associated with the local generation and consumption, and the uncertainties related to PV output and load consumption are modeled in some RPCs with different occurrence probabilities without involving the time-series studies problems. The proposed method is capable of modeling output power of PV panels with different orientations as well as different electric vehicle (EV) charging patterns.

机译：在本文中，提出了一种新方法来确定需要安装在低压（LV）电网的不同位置的最小能量存储，以防止由于高住宅光伏（PV）渗透而引起的过电压。该方法基于对与客户净注入电网的净功率相关的可行方案的电压敏感性分析。基于与本地发电和消耗相关的剩余功率曲线（RPC）定义了一个新概念，并且在一些具有不同发生概率的RPC中对与PV输出和负载消耗相关的不确定性进行了建模，而没有涉及时间序列研究问题。所提出的方法能够对具有不同方向以及不同电动车辆（EV）充电模式的PV面板的输出功率进行建模。

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《Smart Grid, IEEE Transactions on》 |2014年第3期|1514-1522|共9页
作者
Hashemi S.; Ostergaard J.; Yang G.;
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Center for Electric Power and Energy (CEE), Technical University of Denmark (DTU), Kgs. Lyngby, Denmark|c|;

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正文语种 eng
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Energy storage; LV grids; high PV penetration; overvoltage; uncertainty;

机译：储能;低压电网;高PV穿透;过电压;不确定性;

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1. Grid Inertial Response-Based Probabilistic Determination of Energy Storage System Capacity Under High Solar Penetration [J] . Yue Meng, Wang Xiaoyu Sustainable Energy, IEEE Transactions on . 2015,第3期

机译：高穿透力下基于网格惯性响应的储能系统容量概率确定
2. Overcoming Challenges to High Penetration of Solar PV: Using Optimized Energy Storage and Distribution Grid Controls [J] . Wolfe S., Mensah A. The Electricity journal . 2012,第9期

机译：克服太阳能光伏高渗透率的挑战：使用优化的储能和配电网格控制
3. A decision-making tool for determination of storage capacity in grid-connected PV systems [J] . Huang Jing, Boland John, Liu Weidong, Renewable energy . 2018,第PTaA期

机译：用于确定并网光伏系统中存储容量的决策工具
4. Grid inertial response-based probabilistic determination of energy storage system capacity under high solar penetration [C] . Yue, Meng IEEE Power & Energy Society General Meeting . 2015

机译：高太阳穿透力下基于网格惯性响应的储能系统容量概率确定
5. Enhancing the Resilience of Distribution Power Grids with Photovoltaics (PVs) and Energy Storage [D] . McGirt, Alexander Lee. 2020

机译：利用光伏（PVS）和储能，增强分配电网的抵御能力
6. An Energy Storage Performance Improvement Model for Grid-Connected Wind-Solar Hybrid Energy Storage System [O] . Rui Zhu, An-lei Zhao, Guang-chao Wang, 2020

机译：电网连接风光太阳能混合储能系统的能量存储性能改进模型
7. Grid Inertial Response-Based Probabilistic Determination of Energy Storage System Capacity Under High Solar Penetration [O] . Meng Yue, Xiaoyu Wang 2015

机译：基于网格的惯性响应的概率测定高太阳能渗透下的储能系统容量
8. Future of Grid-Tied PV Business Models: What Will Happen When PV Penetration on the Distribution Grid is Significant: Preprint [R] . Graham, S., Katofsky, R., Frantzis, L., 2008

机译：并网光伏业务模式的未来：当配电网上的pV渗透率很高时会发生什么：预印

A Scenario-Based Approach for Energy Storage Capacity Determination in LV Grids With High PV Penetration

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