REU Site: Advanced Technologies for HYpersonic, Propulsive, Energetic and Reusable Platforms (HYPER)

REU 网站：超音速、推进、充满活力和可重复使用平台的先进技术 (HYPER)

• 批准号: 2244324
• 负责人: Ali Gordon
• 金额: $ 40.5万
• 依托单位: The University of Central Florida Board of Trustees
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-04-01 至 2026-03-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2244324&HistoricalAwards=false
• 关键词: REU; Site; Advanced; Technologies; HYpersonic

The Research Experience for Undergraduates (REU) Site: Advanced Technologies for Hypersonic, Propulsive, Energetic and Reusable Platforms (HYPER) at the University of Central Florida (UCF) addresses challenges in next-generation modes of transportation and energy generation. Realizing planned platforms for advanced space travel and energy production can only be achieved through multidisciplinary research. This renewal REU site will actively recruit and partner a diverse group of approximately 30 students over 3 years with leading faculty and graduate students at UCF. Together, these teams will advance the fundamental knowledge needed to overcome technical barriers limiting hypersonic flight. REU students will be matched with individual research projects based on their interests and skills. With the majority of their time engaged in cutting-edge research, participants also will benefit from research-oriented seminars, professional development workshops, software training, and launch pad facility tours. HYPER has several goals, most importantly, to prepare students for PhD-level research and research-oriented careers.The Research Experience for Undergraduates (REU) Site: Advanced Technologies for Hypersonic, Propulsive, Energetic and Reusable Platforms (HYPER) at the University of Central Florida (UCF) addresses challenges in next-generation modes of transportation and energy generation. HYPER will cultivate and unite multidisciplinary interests to study advanced structures and systems with application to hypersonics, space, propulsion, and energy. For example, components in launch vehicles are subjected to combined extreme environments where fluid-structure interactions are key considerations. Also, advanced manufacturing must be better understood to improve component performance and reduce weight. Frameworks for modeling digital versions of systems must be created to predict overall performance more accurately. Ten participants each year will gain hands-on research training in contemporary challenges such as: (1) utilizing advanced manufacturing techniques for high-value components, (2) developing propulsion methods for hypersonic flight, (3) developing novel methods for improved internal cooling and heat transfer effectiveness, (4) mitigating flutter through advanced rotor dynamic control, etc. The collection of projects are crafted to engage students in PhD-level topics; these research topics rely on approaches that cut across disciplines and techniques (e.g., experiments and simulations). As a result, HYPER will play a key role in preparing a workforce of young engineers and scientists for research careers in these areas.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

中佛罗里达大学(UCF)的本科生研究体验(REU)网站：高超声速、推进、能量和可重复使用平台(HYPER)的先进技术解决了下一代交通和能源发电模式的挑战。实现先进的太空旅行和能源生产的计划平台只能通过多学科研究才能实现。这个更新的REU网站将在3年内积极招募和合作一个由大约30名学生组成的不同群体，并在UCF领导教师和研究生。这些团队将共同推进克服限制高超声速飞行的技术障碍所需的基本知识。REU的学生将根据他们的兴趣和技能与个人研究项目相匹配。由于他们的大部分时间都在从事尖端研究，参与者还将受益于以研究为导向的研讨会、专业开发研讨会、软件培训和发射台设施参观。HYPER有几个目标，最重要的是，为学生进行博士水平的研究和面向研究的职业做好准备。中佛罗里达大学(UCF)的本科生研究体验(REU)网站：高超音速、推进、能量和可重复使用平台(HYPER)解决了下一代交通和能源生成模式的挑战。HYPER将培养和联合多学科的兴趣，研究应用于高超声速、空间、推进和能源的先进结构和系统。例如，运载火箭中的部件受到复合极端环境的影响，其中流体-结构相互作用是关键考虑因素。此外，必须更好地理解先进制造，以提高部件性能和减轻重量。必须创建用于对系统的数字版本进行建模的框架，以更准确地预测总体性能。每年有10名参与者将在当代挑战中获得实践研究培训，例如：(1)利用高价值部件的先进制造技术，(2)开发高超声速飞行的推进方法，(3)开发改进内部冷却和换热效率的新方法，(4)通过先进的旋翼动态控制来减少颤振，等等。因此，HYPER将在为这些领域的研究事业培养一批年轻工程师和科学家方面发挥关键作用。该奖项反映了NSF的法定使命，并通过使用基金会的智力优势和更广泛的影响审查标准进行评估，被认为值得支持。