基于液压传动的分布阵列式波浪能发电装置关键技术研究

With the development of industrialization and large-scale of ocean wave energy utilization, the common scientific issues concerning the distribution array of wave energy converters (WECs) such as energy efficient extraction and transmission, coupling modeling and energy optimization management, is increasingly becoming the focus and hotspot in the field of ocean energy. This project intends to focus on the distribution array of WECs, research on the key technologies of working mechanism of energy efficient extraction and hydraulic transmission, wave-to-wire coupling modeling, control strategy of health assessment and energy optimization management, aiming to improve the system efficiency and reliability. A prototype of a WEC array unit based on distributed energy capture, hydraulic transmission and gathering power generation is planned to be developed and the working principle and key technologies should be validated by means of laboratory and sea trail tests, so as to provide a theoretical and practical guide and lay a solid technical foundation for improving the technical level of the and promoting the scale and engineering process of distributed arrays of WECs in China.

随着波浪能开发技术向产业化和规模化不断发展，波浪能发电装置分布阵列化所带来的能量高效提取与转化、耦合建模及优化管理等共同关注的关键科学问题日益成为目前海洋能领域的研究热点与重点。本项目拟以基于液压传动的分布阵列式波浪能发电装置为研究对象，对分布阵列波浪能发电装置能量高效提取与液压转换的工作机理、全过程耦合建模、健康状态评估与能量优化管理等关键技术进行深入系统的研究，从优化原理结构与设计方法着手，采用新技术和新方法提升系统效率和可靠性，研制基于分布捕能、液压传动、汇集发电的波浪能发电装置工程样机，并通过实验室和海试试验验证其原理方案和各项关键技术，为分布阵列波浪能发电装置的工程化提供理论依据，并为提升我国分布阵列波浪能发电装置技术水平、推进其规模化和工程化进程奠定坚实技术基础。

随着波浪能开发技术向产业化和规模化不断发展，波浪能发电装置分布阵列化所带来的能量高效提取与转化、耦合建模及优化管理等共同关注的关键科学问题日益成为目前海洋能领域的研究热点与重点。本项目拟以基于液压传动的分布阵列式波浪能发电装置为研究对象，对分布阵列波浪能发电装置能量高效提取与液压转换的工作机理、全过程耦合建模、健康状态评估与能量优化管理等关键技术进行深入系统的研究，从优化原理结构与设计方法着手，采用新技术和新方法提升系统效率和可靠性，研制基于分布捕能、液压传动、汇集发电的波浪能发电装置工程样机，并通过实验室和海试试验验证其原理方案和各项关键技术，为分布阵列波浪能发电装置的工程化提供理论依据，并为提升我国分布阵列波浪能发电装置技术水平、推进其规模化和工程化进程奠定坚实技术基础。