Collaborative Research: IRES Track I: US-Korea Collaboration on Biomimicry and Bio-inspired Fluid Flows (BIOFLOW IRES)

合作研究：IRES 第一轨：美韩仿生学和仿生流体流动合作 (BIOFLOW IRES)

• 批准号: 2329583
• 负责人: Hunter King
• 金额: $ 10.5万
• 依托单位: Rutgers University Camden
• 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 2024-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2329583&HistoricalAwards=false
• 关键词: Collaborative; Research; IRES; Track; US

The world is facing a wide range of grand challenges, such as the rapid growth in energy demand and more frequent extreme weather and climate conditions. By learning from Nature, Biomimicry or bio-inspired engineering innovation has great potential to address such human challenges. The practice of biomimicry requires a diverse group of scientists and engineers equipped with technical knowledge of biomimicry and interdisciplinary, cross-cultural research experience. To meet this need, the BIOFLOW IRES Track-1 site delivers international research experience to US students, operated by Cleveland State University (CSU) and University of Akron (UA) through a long-time partnership with the Biofluid & Biomimic Research Center (BBRC) at Pohang University of Science and Technology (POSTECH), South Korea. As a Korean government-funded National Creative Research Center, BBRC has excelled at advancing the knowledge of bio-fluid flow physics in Nature and developing bio-inspired engineering solutions. The BIOFLOW IRES project leverages the world-class resources of bio-flow and biomimicry expertise, research facilities, and equipment for a diverse group of 18 US students to conduct creative bio-inspired research, gain solid research and communication skills, and build a professional network. This group of students is well-prepared to embark on their careers as future leading researchers, scientists, and ambassadors for biomimicry research and innovative design. The collaborative IRES project opens up new interdisciplinary research collaboration that bridge biology and engineering, strengthens international research partnerships, and contributes to enhancing the competitiveness of the US workforce in the global economy. The BIOFLOW IRES project aims to provide future scientists and engineers with a global, cross-cultural perspective, and professional growth opportunities through cutting-edge international research training, structured mentoring, and networking opportunities. Research on bio-fluid flows and biomimicry focuses on two complementary research themes addressing the Grand challenges: enhanced energy efficiency and wind resilience of the built environment. The IRES participants perform wind-tunnel tests to evaluate the effectiveness of a seal-whisker-inspired turbine blade for vertical axis wind turbines, explore how the shapes of plant leaves affect energy exchange, and create tree-like flow-control devices to suppress rooftop vortices in high winds. Research discovers new knowledge of working principles of bio-fluid flow phenomena in biology and catalyzes original engineering innovations to achieve enhanced energy efficiency and wind resilience. IRES students gain authentic research training in advanced thermal/flow measurements, critical thinking, and career-building skills benefiting from extraordinary resources at US labs of CSU/UA and the Koerean host lab BBRC. Along with innovative research, the IRES students participate in social and cultural exchange activities to enhance student-faculty, student-mentor, and student-student connection, starting a professional network for future collaboration and career development, an impact beyond the IRES program.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.

世界正面临能源需求快速增长、极端天气气候更加频繁等一系列重大挑战。通过向大自然学习，仿生学或仿生工程创新具有解决此类人类挑战的巨大潜力。仿生学的实践需要一群具有仿生学技术知识和跨学科、跨文化研究经验的多元化科学家和工程师。为了满足这一需求，BIOFLOW IRES Track-1 站点为美国学生提供国际研究经验，该站点由克利夫兰州立大学 (CSU) 和阿克伦大学 (UA) 通过与生物流体与仿生研究中心 (BBRC) 的长期合作伙伴关系运营）在韩国浦项科技大学（POSTECH）。作为韩国政府资助的国家创意研究中心，BBRC 擅长推进自然生物流体流动物理学知识和开发仿生工程解决方案。 BIOFLOW IRES 项目利用世界一流的生物流和仿生学专业知识、研究设施和设备资源，为 18 名美国学生组成的多元化群体进行创造性的仿生研究，获得扎实的研究和沟通技能，并建立专业的团队网络。这群学生已做好充分准备，成为未来仿生研究和创新设计领域的领先研究人员、科学家和大使。 IRES 合作项目开辟了新的跨学科研究合作，将生物学和工程学联系起来，加强国际研究伙伴关系，并有助于提高美国劳动力在全球经济中的竞争力。 BIOFLOW IRES 项目旨在通过尖端的国际研究培训、结构化指导和交流机会，为未来的科学家和工程师提供全球、跨文化的视角和专业发展机会。生物流体流动和仿生学的研究重点关注两个互补的研究主题，以应对重大挑战：提高建筑环境的能源效率和抗风能力。 IRES 参与者进行风洞测试，以评估垂直轴风力涡轮机中受海豹晶须启发的涡轮叶片的有效性，探索植物叶子的形状如何影响能量交换，并创建树状流量控制装置来抑制屋顶大风中的漩涡。研究发现了生物学中生物流体流动现象工作原理的新知识，并催化了原始工程创新，以实现提高能源效率和风力恢复能力。 IRES 学生受益于美国科罗拉多州立大学/UA 实验室和韩国主办实验室 BBRC 的非凡资源，获得了高级热/流量测量、批判性思维和职业建设技能方面的真实研究培训。除了创新研究之外，IRES 学生还参与社会和文化交流活动，以加强学生与教师、学生与导师以及学生与学生之间的联系，为未来的合作和职业发展建立专业网络，其影响力超出了 IRES 项目的范围。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。