1 |
戴兴建, 姜新建, 张剀. 飞轮储能系统技术与工程应用[M]. 北京: 化学工业出版社, 2021.DAI X J, JIANG X J, ZHANG K. Flywheel energy storage technology and engineering application[M]. Beijing: Chemical Industry Press, 2021.
|
2 |
童家麟, 洪庆, 吕洪坤, 等. 电源侧储能技术发展现状及应用前景综述[J]. 华电技术, 2021, 43(7): 17-23.
|
|
TONG J L, HONG Q, LÜ H K, et al. Development status and application prospect of power side energy storage technology[J]. Huadian Technology, 2021, 43(7): 17-23.
|
3 |
马进, 王闯. 风力发电对电力系统一次调频的影响及解决措施[J]. 科技创新与应用, 2021, 11(31): 76-79.
|
|
MA J, WANG C. The impact of wind power generation upon the primary frequency regulation of the power system and the solutions[J]. Technology Innovation and Application, 2021, 11(31): 76-79.
|
4 |
彭鹏, 胡振恺, 李毓烜, 等. 储能参与电网辅助调频的协调控制策略研究[J]. 电气工程学报, 2021, 16(3): 106-114.
|
|
PENG P, HU Z K, LI Y X, et al. Research on coordination control strategy of frequency regulation in grid with energy storage[J]. Journal of Electrical Engineering, 2021, 16(3): 106-114.
|
5 |
陆剑峰, 邹鑫, 牟晓春. 基于光伏电站的一次调频控制系统设计[J]. 电力电子技术, 2021, 55(9): 90-92, 102.
|
|
LU J F, ZOU X, MOU X C. Design of a fast frequency modulation control system based on photovoltaic power station[J]. Power Electronics, 2021, 55(9): 90-92, 102.
|
6 |
李树胜, 付永领, 刘平, 等. 磁悬浮飞轮储能UPS系统集成应用及充放电控制方法研究[J]. 中国电机工程学报, 2017, 37(S1): 170-176.
|
|
LI S S, FU Y L, LIU P, et al. Research on integrated application and charging-discharging control method for the magnetically suspended flywheel storage-based UPS system[J]. Proceedings of the CSEE, 2017, 37(S1): 170-176.
|
7 |
张兴, 阮鹏, 张柳丽, 等. 飞轮储能在华中区域火电调频中的应用分析[J]. 储能科学与技术, 2021, 10(5): 1694-1700.
|
|
ZHANG X, RUAN P, ZHANG L L, et al. Application analysis of flywheel energy storage in thermal power frequency modulation in central China[J]. Energy Storage Science and Technology, 2021, 10(5): 1694-1700.
|
8 |
LI S S, FU Y L, LIU P. Position estimation and compensation based on a two-step extended sliding-mode observer for a MSFESS[J]. Sensors, 2018, 18(8): 2467.
|
9 |
李树胜, 刘平, 付永领, 等. 磁悬浮飞轮永磁同步电机充放电瞬态切换问题研究[J]. 微特电机, 2019, 47(9): 1-6.
|
|
LI S S, LIU P, FU Y L, et al. Research on problem of the transient charging-discharging switching for magnetically suspended flywheel-based PMSM system[J]. Small & Special Electrical Machines, 2019, 47(9): 1-6.
|
10 |
刘平, 李树胜, 李光军, 等. 基于磁悬浮储能飞轮阵列的地铁直流电能循环利用系统及实验研究[J]. 储能科学与技术, 2020, 9(3): 910-917.
|
|
LIU P, LI S S, LI G J, et al. Experimental research on DC power recycling system in the subway based on the magnetically suspended energy-storaged flywheel array[J]. Energy Storage Science and Technology, 2020, 9(3): 910-917.
|
11 |
金梅, 颜廷鑫, 张立国, 等. 200 kW/180 MJ飞轮储能系统转子有限元分析与实验分析[J]. 计量学报, 2021, 42(7): 885-891.
|
|
JIN M, YAN T X, ZHANG L G, et al. Finite element analysis and experimental analysis for 200 kW/180 MJ flywheel energy storage system[J]. Acta Metrologica Sinica, 2021, 42(7): 885-891.
|
12 |
戴兴建, 魏鲲鹏, 张小章, 等. 飞轮储能技术研究五十年评述[J]. 储能科学与技术, 2018, 7(5): 765-782.
|
|
DAI X J, WEI K P, ZHANG X Z, et al. A review on flywheel energy storage technology in fifty years[J]. Energy Storage Science and Technology, 2018, 7(5): 765-782.
|
13 |
陈玉龙. 应用于风电场的飞轮储能系统充放电控制研究[D]. 北京: 华北电力大学(北京), 2021.
|
|
CHEN Y L. Study on charging and discharging control of flywheel energy storage system applied in wind farm[D]. Beijing: North China Electric Power University, 2021.
|
14 |
张汝峰. 飞轮储能辅助火电机组调频技术研究[D]. 北京: 华北电力大学(北京), 2021.ZHANG R F. Research on frequency regulation technology of flywheel energy storage aided thermal power unit[D]. Beijing: North China Electric Power University, 2021.
|
15 |
罗耀东. 飞轮储能参与电网一次调频控制方法研究[D]. 济南: 山东大学, 2021.LUO Y D. Research on control strategy of flywheel energy storage participating in primary frequency regulation of power grid[D]. Jinan: Shandong University, 2021.
|
16 |
李树胜, 付永领, 刘平, 等. 磁悬浮飞轮动态UPS系统对拖充放电实验方法研究[J]. 储能科学与技术, 2018, 7(5): 828-833.
|
|
LI S S, FU Y L, LIU P, et al. Research on twin trawling charging-discharging experimental method for the magnetically suspended flywheel-based dynamic UPS system[J]. Energy Storage Science and Technology, 2018, 7(5): 828-833.
|
17 |
祝保红, 李光军, 李树胜, 等. 基于储能飞轮的油井发电机功率补偿与节能应用[J]. 储能科学与技术, 2021, 10(3): 1088-1094.
|
|
ZHU B H, LI G J, LI S S, et al. Power compensation and energy saving application of oil well generator based on energy storage flywheel[J]. Energy Storage Science and Technology, 2021, 10(3): 1088-1094.
|
18 |
刘平, 李树胜. 基于飞轮储能阵列的岸桥微网控制系统建模分析[J]. 微特电机, 2020, 48(6): 33-39, 44.
|
|
LIU P, LI S S. Modeling analysis on flywheel energy storage array-based shore power micro-grid control system[J]. Small & Special Electrical Machines, 2020, 48(6): 33-39, 44.
|
19 |
LI S S, LIU P. Power regulation system and charge-discharge test applied in power grid based on the flywheel energy storage array[J]. International Journal of Sensors and Sensor Networks, 2021, 9(1): 45.
|
20 |
戴兴建, 邓占峰, 刘刚, 等. 大容量先进飞轮储能电源技术发展状况[J]. 电工技术学报, 2011, 26(7): 133-140.
|
|
DAI X J, DENG Z F, LIU G, et al. Review on advanced flywheel energy storage system with large scale[J]. Transactions of China Electrotechnical Society, 2011, 26(7): 133-140.
|
21 |
冯旭骅, 段晓飞, 邹涛, 等. 基于飞轮储能技术的电动钻机智能微电网系统的研制与应用[J]. 石油管材与仪器, 2020, 6(5): 23-30.
|
|
FENG X H, DUAN X F, ZOU T, et al. Development and application of intelligent micro-grid system of electric drill based on flywheel energy storage technology[J]. Petroleum Tubular Goods & Instruments, 2020, 6(5): 23-30.
|
22 |
张兵, 杨子林, 郭亚男. 基于自适应抗扰控制策略的太阳电池MPPT的研究[J]. 太阳能, 2021(10): 64-69.
|
|
ZHANG B, YANG Z L, GUO Y N. Research on mppt of solar cell based on adaptive disturbance rejection control strategy[J]. Solar Energy, 2021(10): 64-69.
|
23 |
王若谷, 张若微, 王明杰, 等. 提升双馈风力发电系统低电压穿越能力的跟踪控制方法[J]. 电力工程技术, 2021, 40(2): 185-191.
|
|
WANG R G, ZHANG R W, WANG M J, et al. A tracking control method for doubly-fed induction generator to enhance the low voltage ride through capability[J]. Electric Power Engineering Technology, 2021, 40(2): 185-191.
|
24 |
张兴, 阮鹏, 张柳丽, 等. 飞轮储能装置性能测试[J]. 储能科学与技术, 2021, 10(5): 1674-1678.
|
|
ZHANG X, RUAN P, ZHANG L L, et al. Performance test of flywheel energy storage device[J]. Energy Storage Science and Technology, 2021, 10(5): 1674-1678.
|