Welcome to Journal of Beijing Institute of Technology
| Citation: | Yuqiao Zheng, Honghong Jin, Chengcheng Zhang. Optimization of Wind Turbine Hub Assembly Sequence Based on Intelligent Algorithm[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2020, 29(3): 354-365.doi:10.15918/j.jbit1004-0579.20035
|
| [1] |
Du J, Tang Y, Han H, et al. Numerical research on the connecting bolts in main shaft and hub of hor-izontal axis wind turbine [J]. Acta Energiae Solaris Sinica, 2016, 37(7): 1702−1710.
|
| [2] |
Liu X, Li D, Lv W, et al. Research on analysis approach of strength and fatigue life of horizontal axis wind turbine hub [J]. Acta Energiae Solaris Sinica, 2012, 33(5): 763−768.
|
| [3] |
Bech A, Bitsch M L. Hub for a wind turbine and a method for fabricating the hub: U.S., 15/355384 [P]. 2017-03-09.
|
| [4] |
Qu J, Zhang G. Determination of motion equation of rivet head during shaft riveting assembly process for wheel hub bearing units [J]. Journal of Manufacturing Science and Engineering, 2015, 138(4): 041006.
|
| [5] |
Deters C, Lam H, Secco E L, et al. Accurate bolt tightening using model-free fuzzy control for wind turbine hub bearing assembly [J]. IEEE Transactions on Control Systems Technology, 2015, 23(1): 1−12.
doi:10.1109/TCST.2014.2309854
|
| [6] |
Mishra A, Deb S. Assembly sequence optimization using a flower pollination algorithm-based ap-proach [J]. Journal of Intelligent Manufacturing, 2019, 9: 1−22.
|
| [7] |
Wu Y J, Cao Y, Wang Q F. Assembly sequence planning method based on particle swarm algo-rithm [J]. Cluster Computing, 2017, 4(5): 1−12.
|
| [8] |
Liu E, Liu B, Liu X, et al. An assembly sequence planning method based on composite algorithm [J]. Journal of Hebei University of Science and Tech-nology, 2016, 37(1): 52−57.
|
| [9] |
Gruhier E, Demoly F, Dutartre O, et al. A formal ontology-based spatiotemporal mereotopology for integrated product design and assembly sequence planning [J]. Advanced Engineering Informatics, 2015, 29(1): 495−512.
|
| [10] |
Zheng Y Q, Zhao R Z, Liu H. Optimization method for girder of wind turbine blade [J]. Mathematical Problems in Engineering, 2014, 8(7): 7−9.
|
| [11] |
Somayé G, Masehian E. A breakout local search (BLS) method for solving the assembly sequence planning problem [J]. Engineering Applications of Artificial Intelligence, 2015, 39(1): 245−266.
|
| [12] |
Zheng Y Q, Zhao R Z. Characteristics for wind energy and wind turbines by considering vertical wind shear [J]. Journal of Central South University, 2015, 22(6): 2393−2398.
doi:10.1007/s11771-015-2765-6
|
| [13] |
Abdullah T A, Popplewell K, Page C J. A review of the support tools for the process of assembly method selection and assembly planning [J]. In-ternational Journal of Production Research, 2003, 41(11): 2391−2410.
doi:10.1080/002075431000087265
|
| [14] |
Tseng Y J, Yu F Y, Huang F Y. A green assembly sequence planning model with a closed-loop as-sembly and disassembly sequence planning using a particle swarm optimization method [J]. The In-ternational Journal of Advanced Manufacturing Technology, 2011, 57: 1183−1197.
doi:10.1007/s00170-011-3339-x
|
| [15] |
Zheng Y Q, Cao Y Y, Zhang C C, et al. Structural optimization design of large wind turbine blade considering aeroelastic effect [J]. Mathematical Problems in Engineering, 2017, 8: 1−7.
|
| [16] |
Wang F, Sun Y, Li N. Multi station assembly se-quence planning based on particle swarm optimi-zation algorithm [J]. Journal of Mechanical Engineering, 2012, 48(9): 155−162.
doi:10.3901/JME.2012.09.155
|
| [17] |
Yuan Q, Li Z, Jia S, et al. A causal matrix-based method for key process identification: A case study in heavy medium coal preparation [J]. International Journal of Performability Engineering, 2018, 14(6): 1341−1351.
|
Figures(5)/Tables(4)
Supported by:Beijing Renhe Information Technology Co. Ltd
DownLoad:
