振荡浮子式双浮体波浪能装置的阵列特性(英文)
发布时间:2021-11-05 10:42
As the energy supply problem worsens, the development and utilization of marine renewable energy have become a research hotspot. The development of wave energy is moving from the near shore to the distant sea. The power-generation efficiency of a single two-floating-body wave-energy converter is relatively low. To fully utilize wave energy and improve the wave-energy capture rate of a fixed sea area, arranging a two-floating-body wave-energy converter array is necessary. This paper first introdu...
【文章来源】:Journal of Marine Science and Application. 2019,18(03)CSCD
【文章页数】:9 页
【文章目录】:
1 Introduction
2 Basic Theory and Method
2.1 Floating-Body Moving Coordinate System
2.2 Basic Theory of Multi-floating-body Flow Field
2.2.1 Velocity Potential of Multi-floating-body Flow Field
2.2.2 Hydrodynamic Coefficient of Multi-floating-body Flow Field
2.3 Time-Domain Calculation Method of Floating Body
2.3.1 Time-Domain Equation of Motion
2.3.2 Time-Domain Motion Equation of Array
2.3.3 Time-Domain Analysis Method Based on Potential Flow Theory
2.4 Influence Factors of Wave-Energy Converter Array
3 Numerical Verification
3.1 Establishment of Model
3.2 Feasibility Verification
4 Results and Analysis
4.1 Simple Array
4.1.1 Influence of Arrangement Spacing on Power Characteristics of Array
4.1.2 Influence of Wave Direction on Power Characteristics of Array
4.2 Complex Array
4.2.1 Influence of Arrangement Spacing on Power Characteristics of Array
4.2.2 Influence of Wave Direction on Power Characteristics of Array
5 Conclusions
【参考文献】:
期刊论文
[1]具有非线性PTO的波能装置水动力及获能分析[J]. 国威,周念福,王树齐,赵桥生. 华中科技大学学报(自然科学版). 2018(04)
[2]变偏角垂直轴水轮机艏摇运动水动力分析[J]. 徐刚,王树齐,朱仁庆,张亮. 哈尔滨工程大学学报. 2018(02)
[3]Spar平台垂荡板水动力系数计算与分析[J]. 滕斌,郑苗子,姜胜超,勾莹,吕林. 海洋工程. 2010(03)
[4]我国海洋能开发利用发展战略研究的基本思路[J]. 赵世明,刘富铀,张俊海,张智慧,白杨,张榕. 海洋技术. 2008(03)
本文编号:3477645
【文章来源】:Journal of Marine Science and Application. 2019,18(03)CSCD
【文章页数】:9 页
【文章目录】:
1 Introduction
2 Basic Theory and Method
2.1 Floating-Body Moving Coordinate System
2.2 Basic Theory of Multi-floating-body Flow Field
2.2.1 Velocity Potential of Multi-floating-body Flow Field
2.2.2 Hydrodynamic Coefficient of Multi-floating-body Flow Field
2.3 Time-Domain Calculation Method of Floating Body
2.3.1 Time-Domain Equation of Motion
2.3.2 Time-Domain Motion Equation of Array
2.3.3 Time-Domain Analysis Method Based on Potential Flow Theory
2.4 Influence Factors of Wave-Energy Converter Array
3 Numerical Verification
3.1 Establishment of Model
3.2 Feasibility Verification
4 Results and Analysis
4.1 Simple Array
4.1.1 Influence of Arrangement Spacing on Power Characteristics of Array
4.1.2 Influence of Wave Direction on Power Characteristics of Array
4.2 Complex Array
4.2.1 Influence of Arrangement Spacing on Power Characteristics of Array
4.2.2 Influence of Wave Direction on Power Characteristics of Array
5 Conclusions
【参考文献】:
期刊论文
[1]具有非线性PTO的波能装置水动力及获能分析[J]. 国威,周念福,王树齐,赵桥生. 华中科技大学学报(自然科学版). 2018(04)
[2]变偏角垂直轴水轮机艏摇运动水动力分析[J]. 徐刚,王树齐,朱仁庆,张亮. 哈尔滨工程大学学报. 2018(02)
[3]Spar平台垂荡板水动力系数计算与分析[J]. 滕斌,郑苗子,姜胜超,勾莹,吕林. 海洋工程. 2010(03)
[4]我国海洋能开发利用发展战略研究的基本思路[J]. 赵世明,刘富铀,张俊海,张智慧,白杨,张榕. 海洋技术. 2008(03)
本文编号:3477645
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