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Investigation of Wave-Structure Interaction Using State of the Art CFD Techniques
Investigation of Wave-Structure Interaction Using State of the Art CFD Techniques
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摘要:
The suitability of computational fluid dynamics (CFD) for marine renewable energy research and development and in particular for simulating extreme wave interaction with a wave energy converter (WEC) is considered. Fully nonlinear time domain CFD is often considered to be an expensive and computationally intensive option for marine hydrodynamics and frequency-based methods are traditionally preferred by the industry. However, CFD models capture more of the physics of wave-structure interaction, and whereas traditional frequency domain approaches are restricted to linear motions, fully nonlinear CFD can simulate wave breaking and overtopping. Furthermore, with continuing advances in computing power and speed and the development of new algorithms for CFD, it is becoming a more popular option for design applications in the marine environment. In this work, different CFD approaches of increasing novelty are assessed: two commercial CFD packages incorporating recent advances in high resolution free surface flow simulation;a finite volume based Euler equation model with a shock capturing technique for the free surface;and meshless Smoothed Particle Hydrodynamics (SPH) method. These different approaches to fully nonlinear time domain simulation of free surface flow and wave structure interaction are applied to test cases of increasing complexity and the results compared with experimental data. Results are presented for regular wave interaction with a fixed horizontal cylinder, wave generation by a cone in driven vertical motion at the free surface and extreme wave interaction with a bobbing float (The Manchester Bobber WEC). The numerical results generally show good agreement with the physical experiments and simulate the wave-structure interaction and wave loading satisfactorily. The grid-based methods are shown to be generally less able than the meshless SPH to capture jet formation at the face of the cone, the resolution of the jet being grid dependent.
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| 篇名 | Investigation of Wave-Structure Interaction Using State of the Art CFD Techniques | ||
| 来源期刊 | 流体动力学(英文) | 学科 | 医学 |
| 关键词 | WAVE Loading WAVE Energy Wave-Structure Interaction Manchester Bobber CFD Physical Experiments FV CV-FE SPH Cartesian-Cut-Cell SPHysics AMAZON SC STAR CCM+ CFX | ||
| 年,卷(期) | 2014,(1) | 所属期刊栏目 | |
| 研究方向 | 页码范围 | 18-43 | |
| 页数 | 26页 | 分类号 | R73 |
| 字数 | 语种 | ||
| DOI | |||
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WAVE
Loading
WAVE
Energy
Wave-Structure
Interaction
Manchester
Bobber
CFD
Physical
Experiments
FV
CV-FE
SPH
Cartesian-Cut-Cell
SPHysics
AMAZON
SC
STAR
CCM+
CFX
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期刊影响力
流体动力学(英文)
主办单位:
美国科研出版社
出版周期:
季刊
ISSN:
2165-3852
CN:
开本:
出版地:
武汉市江夏区汤逊湖北路38号光谷总部空间
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302
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