Using Design, Build and Test Projects for Improving the Design of Fluid-Thermal Systems and HVAC Design

使用设计、构建和测试项目改进流体热系统和 HVAC 设计

• 批准号: 0410469
• 负责人: Yong Tao
• 金额: $ 11.91万
• 依托单位: Florida International University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-08-01 至 2007-07-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0410469&HistoricalAwards=false
• 关键词: Using; Design; Build; Test; Projects

Engineering-Mechanical (56) The project is adapting and implementing selected design-build-test (DBT) activities in fluid-thermal systems, heating ventilation and air-conditioning from projects developed at the University of Wisconsin-Milwaukee, Colorado State University and the University of Idaho. Thermal science curriculum are being reformed with changes to three required lecture and laboratory courses in such a way that the contents of a stand-alone mechanical engineering laboratory course is integrated with lectures through the execution of design, build, and test (DBT) activities. Two DBT course modules are being developed, one in heat exchangers and the other in scaled building air-conditioning systems.Structure and methods being employed include the following. (1) A hands-on experience is being used to provide students with a better understanding of the abstract concepts discussed in lectures by establishing a clear linkage to industrial applications through Design Build and Test (DBT) projects. (2) The adaptation is enhancing students' learning by providing them with open-ended design problem experiences in the mid-stage of their engineering degree program. (3) Improved comprehension of the thermal-fluid contents is being achieved through practical application and immediate, relevant implementation. (4) DBT activities are enhancing students' critical thinking skills by requiring the students to make decisions that directly affect the outcomes of the process. (5) The process is fostering a cooperative learning environment and is providing a strong sense of accomplishments for the students.The evaluation process is assessing (1) how well the DBT approach equips students to apply mathematics, science, and engineering to thermal-fluid systems design, (2) students' ability to function within teams to develop, professional and ethical responsibility, and (3) how well the reformed curriculum contributes to an increase in student's interests in thermal/fluid subjects, retention, and recruitment of prospective students, and in particular, underrepresented classes of students.

工程机械 (56) 该项目正在调整和实施威斯康星大学密尔沃基分校、科罗拉多州立大学和威斯康星大学密尔沃基分校开发的项目中选定的流体热系统、供暖通风和空调设计-建造-测试 (DBT) 活动。爱达荷大学。 热科学课程正在进行改革，对三门必修讲座和实验室课程进行了修改，以便通过执行设计、构建和测试 (DBT) 活动将独立的机械工程实验室课程的内容与讲座相结合。正在开发两个 DBT 课程模块，一个是热交换器，另一个是规模化建筑空调系统。所采用的结构和方法包括以下内容。 (1) 通过设计、构建和测试 (DBT) 项目与工业应用建立清晰的联系，利用实践经验让学生更好地理解讲座中讨论的抽象概念。 (2) 该调整通过在工程学位课程的中期为学生提供开放式设计问题体验来增强学生的学习。 (3) 通过实际应用和立即相关实施，提高了对热流体内容的理解。 (4) DBT活动通过要求学生做出直接影响过程结果的决定来增强学生的批判性思维能力。 (5) 该过程正在营造合作学习环境，并为学生提供强烈的成就感。评估过程正在评估 (1) DBT 方法如何帮助学生将数学、科学和工程应用到热流体中系统设计，(2) 学生在团队中发挥作用以发展、专业和道德责任的能力，以及 (3) 改革后的课程如何有助于提高学生对热/流体科目的兴趣、保留和招收未来的学生，特别是，学生班级代表性不足。