Citation: | Fu Lei,Ning Dezhi,Wang Rongquan, et al. Hydrodynamic performance study of a land-based OWC under the action of irregular wave[J]. Haiyang Xuebao,2024, 46(1):101–110 doi: 10.12284/hyxb2024005 |
[1] |
Borthwick A G L. Marine renewable energy seascape[J]. Engineering, 2016, 2(1): 69−78. doi: 10.1016/J.ENG.2016.01.011
|
[2] |
Gallutia D, Tahmasbi Fard M, Gutierrez Soto M, et al. Recent advances in wave energy conversion systems: from wave theory to devices and control strategies[J]. Ocean Engineering, 2022, 252: 111105. doi: 10.1016/j.oceaneng.2022.111105
|
[3] |
史宏达, 王传崑. 我国海洋能技术的进展与展望[J]. 太阳能, 2017(3): 30−37. doi: 10.3969/j.issn.1003-0417.2017.03.004
Shi Hongda, Wang Chuankun. Progress and prospects of China’s ocean energy technology[J]. Solar Energy, 2017(3): 30−37. doi: 10.3969/j.issn.1003-0417.2017.03.004
|
[4] |
Zhang Yongxing, Zhao Yongjie, Sun Wei, et al. Ocean wave energy converters: technical principle, device realization, and performance evaluation[J]. Renewable and Sustainable Energy Reviews, 2021, 141: 110764. doi: 10.1016/j.rser.2021.110764
|
[5] |
Portillo J C C, Reis P F, Henriques J C C, et al. Backward bent-duct buoy or frontward bent-duct buoy? Review, assessment and optimisation[J]. Renewable and Sustainable Energy Reviews, 2019, 112: 353−368. doi: 10.1016/j.rser.2019.05.026
|
[6] |
游亚戈, 盛松伟, 吴必军. 海洋波浪能发电技术现状与前景[C]//中国海洋工程学会. 第十五届中国海洋(岸)工程学术讨论会论文集(上). 北京: 海洋出版社, 2011.
You Yage, Sheng Songwei, Wu Bijun. Status and prospects of ocean wave power generation technology[C]//Chinese Society of Marine Engineering. 15th China Ocean (Onshore) Engineering Symposium. Beijing: China Ocean Press, 2011.
|
[7] |
Cheng Yong, Fu Lei, Dai Saishuai, et al. Experimental and numerical analysis of a hybrid WEC-breakwater system combining an oscillating water column and an oscillating buoy[J]. Renewable and Sustainable Energy Reviews, 2022, 169: 112909. doi: 10.1016/j.rser.2022.112909
|
[8] |
Cheng Yong, Fu Lei, Dai Saishuai, et al. Experimental and numerical investigation of WEC-type floating breakwaters: a single-pontoon oscillating buoy and a dual-pontoon oscillating water column[J]. Coastal Engineering, 2022, 177: 104188. doi: 10.1016/j.coastaleng.2022.104188
|
[9] |
姚宇, 张壮壮, 许从昊. 基于RANS方程的桩式U-OWC装置波浪荷载分析[J]. 海洋工程, 2023, 41(2): 93−106.
Yao Yu, Zhang Zhuangzhuang, Xu Conghao. Study on the wave loads on a pile-type U-OWC wave energy device based on RANS Equations[J]. The Ocean Engineering, 2023, 41(2): 93−106.
|
[10] |
Mora A, Bautista E, Méndez F. Influence of a tapered and slender wave collector on the increment of the efficiency of an oscillating water column wave-energy converter[J]. Ocean Engineering, 2017, 129: 20−36. doi: 10.1016/j.oceaneng.2016.11.001
|
[11] |
Konispoliatis D N, Mavrakos S A. Hydrodynamic analysis of an array of interacting free-floating oscillating water column (OWC’s) devices[J]. Ocean Engineering, 2016, 111: 179−197. doi: 10.1016/j.oceaneng.2015.10.034
|
[12] |
Vyzikas T, Deshoulières S, Barton M, et al. Experimental investigation of different geometries of fixed oscillating water column devices[J]. Renewable Energy, 2017, 104: 248−258. doi: 10.1016/j.renene.2016.11.061
|
[13] |
史宏达, 焦建辉, 刘臻, 等. 不规则波作用下OWC沉箱气室捕能效果研究[J]. 中国海洋大学学报(自然科学版), 2012, 42(1/2): 141−148.
Shi Hongda, Jiao Jianhui, Liu Zhen, et al. Study on capture effect of air chamber of caisson breakwater as OWC under irregular waves[J]. Periodical of Ocean University of China, 2012, 42(1/2): 141−148.
|
[14] |
Liu Zhen, Xu Chuanli, Kim K, et al. Experimental study on the overall performance of a model OWC system under the free-spinning mode in irregular waves[J]. Energy, 2022, 250: 123779. doi: 10.1016/j.energy.2022.123779
|
[15] |
Zabihi M, Mazaheri S, Montazeri Namin M, et al. Irregular wave interaction with an offshore OWC wave energy converter[J]. Ocean Engineering, 2021, 222: 108619. doi: 10.1016/j.oceaneng.2021.108619
|
[16] |
Gervelas R, Trarieux F, Patel M. A time-domain simulator for an oscillating water column in irregular waves at model scale[J]. Ocean Engineering, 2011, 38(8/9): 1007−1013.
|
[17] |
Rezanejad K, Guedes Soares C, López I, et al. Experimental and numerical investigation of the hydrodynamic performance of an oscillating water column wave energy converter[J]. Renewable Energy, 2017, 106: 1−16. doi: 10.1016/j.renene.2017.01.003
|
[18] |
Zhou Zhimin, Ke Song, Wang Rongquan, et al. Hydrodynamic investigation on a land-fixed OWC wave energy device under irregular waves[J]. Applied Sciences, 2022, 12(6): 2855. doi: 10.3390/app12062855
|
[19] |
Ning D Z, Teng B, Eatock Taylor R, et al. Numerical simulation of non-linear regular and focused waves in an infinite water-depth[J]. Ocean Engineering, 2008, 35(8/9): 887−899.
|
[20] |
Liu Zhen, Cui Ying, Li Ming, et al. Steady state performance of an axial impulse turbine for oscillating water column wave energy converters[J]. Energy, 2017, 141: 1−10. doi: 10.1016/j.energy.2017.09.068
|
[21] |
Dimakopoulos A S, Cooker M J, Bruce T. The influence of scale on the air flow and pressure in the modelling of oscillating water column wave energy converters[J]. International Journal of Marine Energy, 2017, 19: 272−291. doi: 10.1016/j.ijome.2017.08.004
|
[22] |
Liu Shuxue, Wang Xiantao, Li Muguo, et al. Active absorption wave maker system for irregular-waves[J]. China Ocean Engineering, 2003, 17(2): 203−214.
|
[23] |
Ning Dazhi, Wang Rongquan, Zou Qingping, et al. An experimental investigation of hydrodynamics of a fixed OWC wave energy converter[J]. Applied Energy, 2016, 168: 636−648. doi: 10.1016/j.apenergy.2016.01.107
|
[24] |
Wang Rongquan, Ning Dezhi, Zhang Chongwei, et al. Nonlinear and viscous effects on the hydrodynamic performance of a fixed OWC wave energy converter[J]. Coastal Engineering, 2018, 131: 42−50. doi: 10.1016/j.coastaleng.2017.10.012
|
[25] |
程蒙召. 岸基式振荡水柱波能装置水动力性能试验研究[D]. 大连: 大连理工大学, 2023.
Cheng Mengzhao. Experimental investigation on the hydrodynamic performance of the land-based OWC wave energy converter[D]. Dalian: Dalian University of Technology, 2023.
|