[1]刘红军,杨奇.不同波浪理论下风机支撑系统的动力响应[J].哈尔滨工程大学学报,2018,39(04):668-673.[doi:10.11990/jheu.201608066]
　LIU Hongjun,YANG Qi.Dynamic response of wind turbine supporting system under different wave theories[J].hebgcdxxb,2018,39(04):668-673.[doi:10.11990/jheu.201608066]

点击复制

不同波浪理论下风机支撑系统的动力响应(/HTML)

分享到：

参考文献/References:

[1] SALWA T, BOKHOVE O, KELMANSON M A. Variational modelling of wave-structure interactions with an offshore wind-turbine mast[J]. Journal of engineering mathematics, 2017, 107(1):61-85.
[2] 吴姗姗, 王双, 彭洪兵, 等. 我国海上风电产业发展思路与对策建议[J]. 经济纵横, 2017(1):68-73.WU Shanshan, WANG Shuang, PENG Hongbing, et al. Development thought and suggestions on offshore wind power industry in China[J]. Economic review, 2017(1):68-73.
[3] 王淼, 吴云青, 苏萌, 等. 单桩式基础应用于我国海上风电的可行性探讨[J]. 电力建设, 2013, 34(4):63-66.WANG Miao, WU Yunqing, SU Meng, et al. Application of single pile foundation in offshore wind power in China[J]. Electric power construction, 2013, 34(4):63-66.
[4] 戴国亮, 龚维明, 沈景宁, 等. 东海大桥海上风电场基础波浪理论分析[J]. 岩土工程学报, 2013, 35(S1):456-461.DAI Guoliang, GONG Weiming, SHEN Jingning, et al. Wave theory analysis of foundation of offshore wind farm near East Sea Bridge[J]. Chinese journal of geotechnical engineering, 2013, 35(S1):456-461.
[5] 李德源, 刘胜祥, 张湘伟. 海上风力机塔架在风波联合作用下的动力响应数值分析[J]. 机械工程学报, 2009, 45(12):46-52.LI Deyuan, LIU Shengxiang, ZHANG Xiangwei. Dynamical response numerical analysis of the Offshore Wind Turbine Tower under combined action of wind and wave[J]. Journal of mechanical engineering, 2009, 45(12):46-52.
[6] GALVÍN P, ROMERO A, SOLÍS M, et al. Dynamic characterisation of wind turbine towers account for a monopile foundation and different soil conditions[J]. Structure and infrastructure engineering, 2017, 13(7):942-954.
[7] SEONG J T, HA J G, KIM J H, et al. Centrifuge modeling to evaluate natural frequency and seismic behavior of offshore wind turbine considering SFSI[J]. Wind energy, 2017, 20(10):1787-1800.
[8] AIRY G B. On tidal and wave[M]. London:Encyclopedia Metropolitan, 1845:241-396.
[9] WHEERLER J D. Method for calculating forces produced by irregular waves[J]. Journal of petroleum technology, 1970, 22(3):359-367.
[10] STOKES G G. On the theory of oscillatory waves[J]. Transactions of the Cambridge philosophical society, 1847, 8(310):441-473.
[11] MATLOCK H, REESE L C. Generalized solutions for laterally loaded piles[J]. Journal of the soil mechanics and foundations division, 1960, 86(5):63-94.
[12] GAZIOGLU S M, O’NEILL M W. Evaluation of P-y relationships in cohesive soils[C]//Proceeding of the Conference on Analysis and Design of Pile Foundations. San Francisco, California, 1984:174-213.
[13] 苏静波, 邵国建, 刘宁. 基于P-y曲线法的水平受荷桩非线性有限元分析[J]. 岩土力学, 2006, 27(10):1781-1785.SU Jingbo, SHAO Guojian, LIU Ning. Nonlinear finite element analysis of piles under lateral load based on P-y curves[J]. Rock and soil mechanics, 2006, 27(10):1781-1785.
[14] JEONG S, KIM Y, KIM J. Influence on lateral rigidity of offshore piles using proposed P-y curves[J]. Ocean engineering, 2011, 38(2/3):397-408.
[15] 王腾, 王天霖. 粉土P-y曲线的试验研究[J]. 岩土力学, 2009, 30(5):1343-1346.WANG Teng, WANG Tianlin. Experimental research on silt P-y curves[J]. Rock and soil mechanics, 2009, 30(5):1343-1346.
[16] 杨进, 刘书杰, 姜伟, 等. ANSYS在海洋石油工程中的应用[M]. 北京:石油工业出版社, 2010.YANG Jin, LIU Shujie, JIANG Wei, et al. Application of ANSYS in marine petroleum engineering[M]. Beijing:Petroleum Industry Press, 2010.
[17] 李高伟, 韩美, 张东启. 1961-2013年黄河三角洲气候变化趋势研究[J]. 人民黄河, 2017, 39(1):30-37.LI Gaowei, HAN Mei, ZHANG Dongqi. Climatic change tendency in yellow river delta during 1961-2013[J]. Yellow River, 2017, 39(1):30-37.
[18] WANG Hu, LIU Hongjun. Evaluation of storm wave-induced silty seabed instability and geo-hazards:a case study in the Yellow River delta[J]. Applied ocean research, 2016, 58:135-145.