摘要
传统化石能源发电已然无法适应现代社会的可持续发展,分布式清洁能源发电逐渐走进人们的视野。在不同的清洁能源中,风能以其可再生、无污染、分布广、储量足的优点受到了广泛关注。其中,就发展潜力而言,以海上风力发电为最佳。然而,海上风电一直处在湿度和盐度较大的空气中,水密性保护成为海上风电发展的基础。课题组对设备外壳、电子元器件、输电线路、“互联网+海上风机”进行实时监控,并建立现代化运维系统的方式对水密性保护进行分析。结果表明:水密性保护是海上风电的基础性问题,海上风电的整体架构尚不完善,但其发展潜力巨大。
Traditional fossil energy power generation has been unable to adapt to the sustainable development of modern society,and distributed clean energy power generation has gradually come into people’s vision.Among different clean energy sources,wind energy has attracted extensive attention because of its renewable,pollution-free,wide distribution and sufficient reserves.Among them,in terms of development potential,offshore wind power generation is the most important.However,offshore wind power has been in the air with high humidity and salinity,and water tightness protection has become the basis of offshore wind power development.Research group will analyze the water tightness protection from the aspects of real-time monitoring of equipment shell,electronic components,transmission line,Internet + offshore fan,and the establishment of modern operation and maintenance system.The results show that water tightness protection is the basic problem of offshore wind power.The overall architecture of offshore wind power is not perfect,but its development potential is huge.
基金
江西省教育厅科学技术研究项目“海上风力发电系统水密性控制装置研究”(GJJ203209)。
关键词
可持续发展
风能
海上风电
水密性保护
sustainable development
wind energy
offshore wind power
water tightness protection
