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Enhancement of microgrid frequency control subsequent to islanding process using flywheel energy storage system

机译：使用飞轮储能系统增强孤岛过程后微电网的频率控制

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Recently connection of some Distributed generation and load has created Microgrids (MGs). This MG can operate in grid connected mode or disconnects from main grid. Maintaining stability of MG When it is disconnected from main grid, is an important problem. Frequency stability is one of aspects of stability. Using of energy storage with appropriate control strategy can be effective in this subject. In this paper A flywheel energy storage system (FESS) in detailed is described and is used for frequency control in islanding mode. Two control strategies for DGs inverters are stated and suitable method for each DG and FESS is selected. Simulation is carried by MATLAB/Simulink. Two case studies are examined. In two cases, FESS effect on frequency in islanding process is discussed. Results of simulation verify appropriate operation of FESS and confirm effectiveness of this application.

机译：最近，一些分布式发电和负载的连接已经创建了微电网（MG）。该MG可以在并网模式下运行或与主电网断开连接。维护MG的稳定性当它与主电网断开连接时，这是一个重要的问题。频率稳定性是稳定性的方面之一。在此主题中，将能量存储与适当的控制策略配合使用可能是有效的。本文详细介绍了飞轮储能系统（FESS），并将其用于孤岛模式下的频率控制。阐述了DGs逆变器的两种控制策略，并为每种DG和FESS选择了合适的方法。仿真由MATLAB / Simulink进行。研究了两个案例研究。在两种情况下，讨论了FESS对孤岛过程中频率的影响。仿真结果验证了FESS的正确运行，并确认了此应用程序的有效性。

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《Smart Grid Conference》|2014年|1-6|共6页
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Khodadoost Arani A.A.; Gharehpetian G.B.;
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islanded microgrid; flywheel energy storage; PQinverter; V/f control method; frequency;

机译：孤岛微电网飞轮储能; PQinverter; V / f控制方式频率;

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1. A Novel Control Method Based on Droop for Cooperation of Flywheel and Battery Energy Storage Systems in Islanded Microgrids [J] . Arani Ali Asghar Khodadoost, Gharehpetian Gevork B., Abedi Mehrdad IEEE systems journal . 2020,第1期

机译：一种基于Droop的小型控制方法，用于孤岛微电网中飞轮和电池储能系统的合作
2. Optimal sizing of Battery Energy Storage Systems for dynamic frequency control in an islanded microgrid: A case study of Flinders Island, Australia [J] . Kutaiba S. El-Bidairi, Hung Duc Nguyen, Thair S. Mahmoud, Energy . 2020,第Mara15期

机译：用于孤岛微电网中动态频率控制的电池储能系统的最佳尺寸：以澳大利亚弗林德斯岛为例
3. Induction machine‐based flywheel energy storage system modelingrnand control for frequency regulation after micro‐grid islanding [J] . Ali Asghar Khodadoost Arani, Behrooz Zaker, Gevork B. Gharehpetian International Transactions on Electrical Energy Systems . 2017,第9期

机译：微电网孤岛后基于感应电机的飞轮储能系统建模和频率调节控制
4. A Case Study on Flywheel Energy Storage System Application for Frequency Regulation of Islanded Amphoe Mueang Mae Hong Son Microgrid [C] . Mutchimas Kheawcum, Somboon Sangwongwanich International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology . 2020

机译：飞轮储能系统在岛式Amphoe Mueang Mae Hong Son微电网调频中的应用研究
5. Control Algorithm Design, Testing, and Use Cases for the INSTAR [INertial STorage And Recovery] System: A Flywheel-Based Dedicated High-Power Energy Storage System for Improved Hybrid Vehicle Fuel Efficiency and Performance with Special Application in Urban Commercial Vehicles [D] . Madura, John Michael 2018

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6. Modeling Control and Simulation of Battery Storage Photovoltaic-Wave Energy Hybrid Renewable Power Generation Systems for Island Electrification in Malaysia [O] . Nahidul Hoque Samrat, Norhafizan Bin Ahmad, Imtiaz Ahmed Choudhury, -1

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7. Impact of Advanced Load-Frequency Control on Optimal Size of Battery Energy Storage in Islanded Microgrid System [O] . Sandro Sitompul, Goro Fujita 2021

机译：高级负载频率控制对岛微电网电池电池储能的最优尺寸的影响

Enhancement of microgrid frequency control subsequent to islanding process using flywheel energy storage system

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