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A dual-stator brushless doubly-fed generator for wind power application

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A novelty dual-stator brushless doubly-fed generator (DSBDFG) with magnetic-barrier rotor structure is put forward for application in wind power. Compared with a doubly-fed induction generator, the DSBDFG has virtues of high reliability and low maintenance costs because of elimination of brush and sliprings components. Therefore, the proposed structure has tremendous potential as a wind power generator to apply in wind power. According to the operating principle of electric machine, the DSBDFG is studied in wind power application. At first, the topology, the winding connecting, the rotor structure, the power flow chart of different operating models and the variable speed capability of electric machine are discussed and analyzed. Then, a 50 kW DSBDFG is designed. Based on the principal dimension of the design electric machine, the electromagnetic characteristics of the DSBDFG with different running modes are analyzed and calculated to adopt the numerical method. From the result, it meets the requests of electromagnetic consistency and winding connecting in the design electric machine. Meanwhile, it confirms the proposed DSBDFG has the strong ability of speed regulation.
Rocznik
Strony
1073--1087
Opis fizyczny
Bibliogr. 29 poz., fig., tab.
Twórcy
autor
  • School of Electrical and Control Engineering, Henan University of Urban Construction Longxiang Avenue, Xincheng District, Pingdingshan, China
autor
  • School of Electrical and Control Engineering, Henan University of Urban Construction Longxiang Avenue, Xincheng District, Pingdingshan, China
autor
  • School of Surveying and Urban Spatial Information, Henan University of Urban Construction Longxiang Avenue, Xincheng District, Pingdingshan, China
autor
  • School of Electrical and Control Engineering, Henan University of Urban Construction Longxiang Avenue, Xincheng District, Pingdingshan, China
autor
  • Department of Renewable Energy, Shenyang Institute of Engineering No. 18 Puchang Road, Shenbei New District, Shenyang, China
Bibliografia
  • [1] https://www.163.com/dy/article/G60BD0A90514C30V.html, accessed March 2021.
  • [2] Holtslag M.C., Bierbooms W.A.A.M., van Bussel G.J.W., Extending the diabatic surface layer wind shear profile for offshore wind energy, Renewable Energy, vol. 101, pp. 96–110 (2017), DOI: 10.1016/j.renene.2016.08.031.
  • [3] Selin Karlilar, Firat Emir, Exploring the role of coal consumption, solar, and wind power generation on ecological footprint: evidence from India using Fourier ADL cointegration test, Environmental Science and Pollution Research, vol. 30, no. 9, pp. 24077–24087 (2022), DOI: 10.1007/s11356-022-23910-z.
  • [4] http://www.chinacrane.net/news/202011/07/181900.html, accessed November 2020.
  • [5] https://news.bjx.com.cn/html/20230417/1301287.shtml, accessed April 2023.
  • [6] Ge Xiaolin, Chen Quan, Fu Yang et al., Stochastic maintenance path planning for offshore wind turbines considering wake effects, Acta Energiae Solaris Sinica, vol. 42, no. 12, pp. 183–191 (2021), DOI: 10.1093/icb/40.6.925.
  • [7] Olubamiwa Oreoluwa I., Gule Nkosinathi, A review of the advancements in the design of brushless doubly fed machines, Energies, vol. 15, no. 3, 725 (2022), DOI: 10.3390/en15030725.
  • [8] Ronghai Qu, Yingzhen Liu, Jin Wang, Review of superconducting generator topologies for directdrive wind turbines, IEEE Transactions on Applied Superconductivity, vol. 23, no. 3, 5201108 (2013), DOI: 10.1109/TASC.2013.2241387.
  • [9] Yasser Belkacem, Said Drid, Abdesslam Makouf, Larbi Chrifi-Alaoui, Multi-agent energy management and fault tolerant control of the micro-grid powered with doubly fed induction generator wind farm, International Journal of System Assurance Engineering and Management, vol. 13, no. 1, pp. 267–277 (2022), DOI: 10.1007/s13198-021-01228-2.
  • [10] Miaohong Su, Haiying Dong, Kaiqi Liu, Weiwei Zou, Subsynchronous oscillation and its mitigation of VSC-MTDC with doubly-fed induction generator-based wind farm integration, Archives of Electrical Engineering, vol. 70, no. 1, pp. 53–72 (2021), DOI: 10.24425/aee.2021.136052.
  • [11] Hamidreza Mosaddegh Hesar, Hossein Abootorabi Zarchi, Gholamreza Arab Markadeh, Modeling and dynamic performance analysis of brushless doubly fed induction machine considering iron loss, IEEE Transactions on Energy Conversion, vol. 35, no. 1, pp. 193–202 (2020), DOI: 10.1109/TEC.2019. 2944424.
  • [12] Hao Liu, Electromagnetic design and characteristic analysis of dual-stator brushless doubly-fed wind power generator with cage-barrier rotor, PhD Thesis, School of Electrical Engineering, Shenyang University of Technology, Shenyang (2020).
  • [13] Sajjad Tohidi, Analysis and simplified modeling of brushless doubly-fed induction machine in synchronous mode of operation, IET Electric Power Applications, vol. 10, no. 2, pp. 110–116 (2016), DOI: 10.1049/iet-epa.2015.0217.
  • [14] Roland Ryndzionek, Krzysztof Blecharz, Filip Kutt, MichałMichna, Grzegorz Kostro, Development and performance analysis of a novel multiphase doubly-fed induction generator, Archives of Electrical Engineering, vol. 71, no. 4, pp. 1003–1015 (2022), DOI: 10.24425/aee.2022. 142121.
  • [15] Resmi R., Vanitha V., Nambiar T.N.P., Sasi K. Kottayil, Design and implementation of brushless doubly fed induction machine with new stator winding configuration, Wind Engineering, vol. 45, no. 1, pp. 11–23 (2021), DOI: 10.1177/0309524X19868423.
  • [16] Hao Liu, Yue Zhang, Shi Jin, Fengge Zhang, Heng Nian, He Zhang, Electromagnetic design and optimization of dual-stator brushless doubly-fed wind power generator with cage-barrier rotor, Wind Energy, vol. 22, no. 6, pp. 713–731 (2019), DOI: 10.1002/we.2317.
  • [17] Ademi Sul, Jovanovic Milutin, High-efficiency control of brushless doubly-fed machines for wind turbines and pump drives, Energy Conversion and Management, vol. 81, no. 1, pp. 120–132 (2014), DOI: 10.1016/j.enconman.2014.01.015.
  • [18] Liu Guangjun, Wang Xuefan, Design and performance analysis of a 700-kW wound-rotor BDFIG for ship shaft generator application, IEEJ Transactions on Electrical and Electronic Engineering, vol. 11, no. 1, pp. 112–123 (2016), DOI: 10.1002/tee.22195.
  • [19] Ruviaro Mauricio, Runcos Fredemar, Analysis and test results of a brushless doubly fed induction machine with rotary transformer, IEEE Transactions on Industrial Electronics, vol. 59, no. 6, pp. 2670–2677 (2012), DOI: 10.1109/TIE.2011.2165457.
  • [20] Han Peng, Cheng Ming, Chen Zhe, Dual-electrical-port control of cascaded doubly-fed induction machine for EV/HEV applications, IEEE Transactions on Industry Applications, vol. 53, no. 2, pp. 1390–1398 (2017), DOI: 10.1109/TIA.2016.2625770.
  • [21] Peng Han, Ming Cheng, Rensong Luo, Design and analysis of a brushless doubly-fed induction machine with dual-stator structure, IEEE Transactions on Industrial Electronics, vol. 31, no. 3, pp. 1132–1141 (2016), DOI: 10.1109/TEC.2016.2547955.
  • [22] Chukwuemeka Chijioke Awah, Performance comparison of double stator permanent magnet machines, Archives of Electrical Engineering, vol. 71, no. 4, pp. 829–850 (2022), DOI: 10.24425/aee.2022.142111.
  • [23] Zhang Changguo, Cheng Ming, Zeng Yu, Design and analysis of dual-stator brushless doubly-fed generator for wind turbine, IEEJ Transactions on Electrical & Electronic Engineering, vol. 17, no. 2, pp. 276–286 (2022), DOI: 10.1002/tee.23503.
  • [24] Hao Wang, Siyang Yu, Shi Jin, Fengge Zhang, Electromagnetic and mechanical design of module dual stator brushless doubly-fed generator for offshore wind turbine, IET Renewable Power Generation, vol. 15, no. 3, pp. 631–640 (2021), DOI: 10.1049/rpg2.12050.
  • [25] Hao Liu, Fengge Zhang, Rui Dai, Air-gap magnetic field analysis of dual-stator brushless doubly-fed generator based on analytic method, 2019 IEEE Transportation Electrification Conference and Expo, Asia-Pacific, ITEC Asia-Pacific 2019, Seogwipo, Korea, pp. 1–6 (2019).
  • [26] Xiaodong Jiang, Fengge Zhang, Rui Dai, Thermal analysis and calculation of double stator brushless doubly-fed generator for wind power generation, 2019 IEEE Transportation Electrification Conference and Expo, Asia-Pacific, ITEC Asia-Pacific 2019, Seogwipo, Korea, pp. 1–5 (2019).
  • [27] Hamed Gorginpour, Hashem Oraee, Ehsan Abdi et al., Calculation of core and stray load losses in brushless doubly fed induction generators, IEEE Transactions on Industrial Electronics, vol. 61, no. 7, pp. 3167–3177 (2014), DOI: 10.1109/TIE.2013.2279357.
  • [28] Fengxiang Wang, Fengge Zhang, Brushless doubly-fed AC electric machine with magnetic field modulated, Jilin University Press (2004).
  • [29] Yiding Wang, Jianhui Su, Jidong Lai et al., Equivalent and identification of integrated coupling parameter of variable speed constant frequency brushless doubly fed generator, Journal of Power Electronics, vol. 22, no. 1, pp. 61–71 (2022), DOI: 10.1007/s43236-021-00346-1.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2f1708dc-125c-4541-b947-250f2976883a
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