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Automating the Transition Between Sensorless Motor Control Methods for the NASA Glenn Research Center Flywheel Energy Storage System

机译：自动化Nasa Glenn研究中心飞轮储能系统的无传感器电机控制方法之间的转换

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The NASA Glenn Research Center (GRC) has been working to advance the technology necessary for a flywheel energy storage system for the past several years. Flywheels offer high efficiency, durability, and near-complete discharge capabilities not produced by typical chemical batteries. These characteristics show flywheels to be an attractive alternative to the more typical energy storage solutions. Flywheels also offer the possibility of combining what are now two separate systems in space applications into one: energy storage, which is currently provided by batteries, and attitude control, which is currently provided by control moment gyroscopes (CMGs) or reaction wheels. To date, NASA Glenn research effort has produced the control algorithms necessary to demonstrate flywheel operation up to a rated speed of 60,000 RPM and the combined operation of two flywheel machines to simultaneously provide energy storage and single axis attitude control. Two position-sensorless algorithms are used to control the motor/generator, one for low (0 to 1200 RPM) speeds and one for high speeds. The algorithm allows the transition from the low speed method to the high speed method, but the transition from the high to low speed method was not originally included. This leads to a limitation in the existing motor/generator control code that does not allow the flywheels to be commanded to zero speed (and back in the negative speed direction) after the initial startup. In a multi-flywheel system providing both energy storage and attitude control to a spacecraft, speed reversal may be necessary.

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作者
Fehrmann, Elizabeth A.; Kenny, Barbara H.;
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年度 2004
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
FLYWHEELS; ENERGY STORAGE; ATTITUDE CONTROL; ALGORITHMS; MOTORS; VELOCITY; CONTROL MOMENT GYROSCOPES; TECHNOLOGY UTILIZATION;

机译：储能飞轮的;能源储备;态度控制;算法; mOTORs;速度;控制时间陀螺仪;技术利用;

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1. Modeling and Position-Sensorless Control of a Dual-Airgap Axial Flux Permanent Magnet Machine for Flywheel Energy Storage Systems [J] . Trong Duy Nguyen, Gilbert Foo Hock Beng, King-Jet Tseng, Journal of power electronics . 2012,第5期

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2. Sensorless control of wind power generator with flywheel energy storage system [J] . L Hocine, M Menaa, K Yazid Wind Engineering . 2021,第2期

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3. High-gain observer-based sensorless control of a flywheel energy storage system for integration with a grid-connected variable-speed wind generator [J] . Soft computing: A fusion of foundations, methodologies and applications . 2020,第14期

机译：基于高增益观测器的无传感器控制飞轮储能系统，用于集成与网格连接的变速风力发电机
4. Automating the Transition Between Sensorless Motor Control Methods for the NASA Glenn Research Center Flywheel Energy Storage System [C] . E. Fehrmann, B. Kenny International Energy Conversion Engineering Conference . 2004

机译：NASA Glenn研究中心飞轮储能系统的无传感器电机控制方法之间的自动化转换
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. Clean energy storage technology in the making: An innovation systems perspective on flywheel energy storage [O] . Samuel Wicki, Erik G. Hansen -1

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7. Automating the Transition Between Sensorless Motor Control Methods for the NASA Glenn Research Center Flywheel Energy Storage System [O] . Fehrmann, Elizabeth A., Kenny, Barbara H. 2004

机译：NASA Glenn研究中心飞轮储能系统的无传感器电机控制方法之间的自动化转换

Automating the Transition Between Sensorless Motor Control Methods for the NASA Glenn Research Center Flywheel Energy Storage System

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