2nd International Next Generation Wind Energy Workshop

第二届国际下一代风能研讨会

• 批准号: 1539857
• 负责人: Ryo Amano
• 金额: $ 2.5万
• 依托单位: University of Wisconsin-Milwaukee
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-04-01 至 2017-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1539857&HistoricalAwards=false
• 关键词: 2nd; International; Next; Generation; Wind

Proposal Number: 1539857Principal Investigator: Ryoichi S AmanoWind energy is gaining momentum internationally as renewable source of electricity production. The 2nd International Next Generation Wind Energy Workshop will be tentatively held from October 6-8, 2015 at Lund University in Sweden. This workshop will highlight the complex processes involved in harnessing wind energy for the generation of electricity, and their impacts on current and future wind turbine development issues facing the expansion of wind farm operations in both the United States and Europe. The workshop will provide support for both senior and early career researchers based in the United States to travel to Sweden to attend this international workshop. The senior scientists will provide the keynote lectures, and both senior and junior scientists will participate in the panel discussion sessions.The workshop will be a forum to promote the development and application of new wind turbine designs of the 21st century, based on state-of-the-art experimental, computational, and/or theoretical research methods being developed in the academic community. The diverse and complex processes encountered in wind energy harvesting have fundamental considerations that drive new concepts for wind turbines. The workshop will bring together researchers working on many of the central challenges facing the fluid dynamic, aerodynamic, material science, structural, and manufacturing aspects of the wind turbine rotor blade performance and design. The participants will define new frontiers in wind energy aerodynamic and structural modeling research needed to guide the development of computational tools to explore the commercial potential of future wind turbine blade designs, including vertical axis turbines, blade-less systems such as turbines with cyclone technology, and hybrid wind turbines. The workshop will also focus attention on common problems of current wind turbine designs and their manufacturing challenges that are faced by the commercial wind energy industry both in the United States and Europe. The participants will come from academia, independent research organizations, governmental agencies, and industry, from both the United States and Europe. The workshop proceedings will be published in a special issue of ASME Transactions - Journal Energy Resources Technology (JERT), and workshop outcomes will be posted the workshop website.

提案编号：1539857主要调查者：S天皇风能作为可再生能源发电正在国际上获得发展势头。第二届国际下一代风能研讨会将于2015年10月6日至8日在瑞典隆德大学暂定举行。本次研讨会将重点介绍利用风能发电的复杂过程，以及它们对当前和未来风力涡轮机发展的影响，以及美国和欧洲风力发电场运营规模扩大所面临的问题。研讨会将为在美国工作的资深和早期研究人员前往瑞典参加这一国际研讨会提供支持。资深科学家将进行主题演讲，资深和初级科学家将参加小组讨论。研讨会将成为一个论坛，基于学术界正在开发的最先进的实验、计算和/或理论研究方法，促进21世纪新型风力涡轮机设计的开发和应用。风能收集过程中遇到的多样化和复杂的过程具有基本的考虑因素，这些因素推动了风力涡轮机的新概念。研讨会将汇集致力于解决风力涡轮机转子叶片性能和设计的流体动力学、空气动力学、材料科学、结构和制造方面的许多核心挑战的研究人员。与会者将定义风能空气动力学和结构建模研究的新前沿，以指导计算工具的开发，以探索未来风力涡轮机叶片设计的商业潜力，包括垂直轴涡轮机、采用旋风技术的涡轮机等无叶片系统，以及混合风力涡轮机。研讨会还将重点关注当前风力涡轮机设计的常见问题，以及美国和欧洲商业风能行业面临的制造挑战。与会者将来自美国和欧洲的学术界、独立研究组织、政府机构和工业界。研讨会会议记录将发表在ASME会刊--《能源资源技术期刊》(JERT)的特刊上，研讨会成果将刊登在研讨会网站上。