Assessment of Wave Energy Resources and Factors Affecting Conversion

Craig Jones, G. Chang, A. Dallman, Jesse D. Roberts, K. Raghukumar, S. McWilliams
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引用次数: 1

Abstract

The wave energy resource for U.S. coastal regions has been estimated at approximately 1,200 TWh/yr (EPRI 2011). The magnitude is comparable to the natural gas and coal energy generation. Although the wave energy industry is relatively new from a commercial perspective, wave energy conversion (WEC) technology is developing at an increasing pace. Ramping up to commercial scale deployment of WEC arrays requires demonstration of performance that is economically competitive with other energy generation methods. The International Electrotechnical Commission has provided technical specifications for developing wave energy resource assessments and characterizations, but it is ultimately up to developers to create pathways for making a specific site competitive. The present study uses example sites to evaluate the annual energy production using different wave energy conversion strategies and examines pathways available to make WEC deployments competitive. The wave energy resource is evaluated for sites along the U.S. coast and combinations of wave modeling and basic resource assessments determine factors affecting the cost of energy at these sites. The results of this study advance the understanding of wave resource and WEC device assessment required to evaluate commercial-scale deployments.
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波浪能资源评价及转换影响因素
据估计,美国沿海地区的波浪能资源约为1200太瓦时/年(EPRI 2011)。其规模可与天然气和煤炭发电相媲美。虽然从商业角度来看,波浪能产业相对较新,但波浪能转换(WEC)技术正在加速发展。要使WEC阵列达到商业规模部署,需要证明其性能在经济上与其他能源发电方法具有竞争力。国际电工委员会已经为开发波浪能资源评估和特征提供了技术规范,但最终还是要由开发商来创造使特定地点具有竞争力的途径。本研究使用实例站点来评估使用不同波浪能转换策略的年能源产量,并检查可使WEC部署具有竞争力的途径。对美国沿海地区的波浪能资源进行了评估,波浪模拟和基本资源评估的结合确定了影响这些地点能源成本的因素。这项研究的结果促进了对评估商业规模部署所需的波浪资源和WEC设备评估的理解。
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