A One-Body, Laminated-Rotor Flywheel Switched Reluctance Machine for Energy Storage: Design Trade-Offs

机译：一种用于蓄能的单体，叠片转子飞轮开关磁阻电机：设计折衷方案

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A critical aspect of distributed generation systems focuses on the installation of Electrical Energy Storage Systems in customer-side facilities. In this scenario, flywheel technology is challenged to provide high levels of safety, compactness and competitive cost. This work presents a novel, one-body flywheel scheme based on a switched reluctance machine, whose laminated rotor fulfils both the motor/generator and energy storage functions. The one-body architecture enhances compactness and robustness, whereas the laminated rotor ensures high safety. The design of this flywheel scheme is characterised by a widely different set of trade-offs compared to conventional schemes. In order to prove the feasibility of the proposed scheme and to highlight its design trade-offs, a 60kW, 2.2kWh one-body flywheel is presented as a case study, along with some preliminary experimental results.

机译：分布式发电系统的一个关键方面集中于在客户方设施中安装电能存储系统。在这种情况下，飞轮技术面临的挑战是提供高水平的安全性，紧凑性和具有竞争力的成本。这项工作提出了一种基于开关磁阻电机的新颖的单轮飞轮方案，该方案的叠片式转子既具有电动机/发电机的功能，又具有储能功能。一体式结构提高了结构紧凑性和耐用性，而叠片式转子则确保了很高的安全性。飞轮方案的设计特点是与传统方案相比，有许多不同的权衡取舍。为了证明该方案的可行性并突出其设计折衷，本文以一个60kW，2.2kWh单体飞轮为案例研究，并给出了一些初步的实验结果。

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《IEEE International Conference on Environment and Electrical Engineering;IEEE Industrial and Commercial Power Systems Europe》|2020年|1-6|共6页
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Roberto Rocca; Savvas Papadopoulos; Mohamed Rashed; George Prassinos; Fabio Giulii Capponi; Michael Galea;
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Flywheels; Rotors; Steel; Safety; Iron; Lamination;

机译：飞轮;转子;钢;安全;铁;覆膜;

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专利

1. Design Optimization of Transversely Laminated Synchronous Reluctance Machine for Flywheel Energy Storage System Using Response Surface Methodology [J] . Hossein Azizi Moghaddam, Abolfazl Vahedi, Saeed Hasan Ebrahimi Industrial Electronics, IEEE Transactions on . 2017,第12期

机译：基于响应面法的飞轮储能系统横向叠片同步磁阻电机设计优化
2. Output Power Control of a Switched Reluctance Generator Based on Flywheel Energy Storage System [J] . P. Thongprasri International review of electrical engineering . 2015,第5期

机译：基于飞轮储能系统的开关磁阻发电机的输出功率控制
3. Control system for the switched reluctance drive of a flywheel energy-storage module [J] . C. Vazquez, M. Lafoz, D. Ugena, European Transactions on Electrical Power . 2007,第6期

机译：飞轮储能模块的开关磁阻驱动控制系统
4. Design of a mobile flywheel energy storage driven by a switched reluctance machine [C] . Fabian LORENZ, Ralf WERNER International Symposium on Magnetic Bearings . 2016

机译：由开关磁阻机驱动的移动飞轮储能的设计
5. Bearingless AC Homopolar Machine Design and Control for Distributed Flywheel Energy Storage. [D] . Severson, Eric Loren. 2015

机译：分布式飞轮储能的无轴承交流同极电机设计与控制。
6. Clean energy storage technology in the making: An innovation systems perspective on flywheel energy storage [O] . Samuel Wicki, Erik G. Hansen -1

机译：清洁能源存储技术的发展：飞轮能量存储的创新系统观点
7. Design Trade-Offs and Feasibility Assessment of a Novel One-Body, Laminated-Rotor Flywheel Switched Reluctance Machine [O] . Roberto Rocca, Savvas Papadopoulos, Mohamed Rashed, 2020

机译：设计专业权衡和可行性评估新型一体，层压转子飞轮开关磁阻机
8. Design Options and Trade-Offs in Superconducting Magnetic Energy Storage with Irreversible Switching [R] . H. L. Laquer, J. D. G. Lindsay, E. M. Little 1973

机译：不可逆开关超导磁储能的设计选择与权衡

A One-Body, Laminated-Rotor Flywheel Switched Reluctance Machine for Energy Storage: Design Trade-Offs

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