Developing and assessing a collaborative open-ended design project with a renewable energy focus in an introductory thermal sciences course

IF 1.1 Q3 EDUCATION, SCIENTIFIC DISCIPLINES International Journal of Mechanical Engineering Education Pub Date : 2023-07-30 DOI:10.1177/03064190231190054
Melissa M. Gibbons
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Abstract

This paper describes the development and assessment of a collaborative open-ended design project for a second-year Introduction to Thermal Sciences course, in which groups had to design a renewable energy portfolio that would meet the University of San Diego's energy needs. The project was broken into three individual tasks, and the deliverables were a technical report and an oral presentation. Final reports submitted by groups in spring 2022 were directly assessed using rubrics to determine the efficacy of the project at meeting four of the student outcomes addressed by the course (1—ability to solve complex engineering problems, 2—ability to apply the engineering design process, 4—consider the impact of engineering solutions, and 7—ability to acquire and apply new knowledge). Four out of the six groups achieved student outcome 1, and five of the groups achieved student outcomes 2, 4, and 7. A self- and peer-evaluation form was used to indirectly assess student outcome 5—ability to function effectively on a team, and results showed that 27 of the 29 students achieved the outcome. Indirect assessment was performed using an anonymous survey instrument, and students’ responses about how the project improved their abilities in all skills that were assessed were statistically different from neutral in the positive direction. Students’ responses about their perception of the project organization, tasks expectations, timing, and difficulty were also statistically different from neutral in the positive direction. Open-ended feedback indicated that students appreciated learning about renewable energy, having real data from a realistic customer, and the amount of autonomy they were given.
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在热科学入门课程中开发和评估以可再生能源为重点的开放式合作设计项目
本文描述了热科学导论课程第二年开放式合作设计项目的开发和评估,在该项目中,小组必须设计一个满足圣地亚哥大学能源需求的可再生能源组合。该项目分为三个单独的任务,可交付成果是一份技术报告和一份口头报告。小组在2022年春季提交的最终报告使用量规进行了直接评估,以确定该项目在满足课程所涉及的四个学生成果时的有效性(1-解决复杂工程问题的能力,2-应用工程设计过程的能力,4-考虑工程解决方案的影响,以及7-获取和应用新知识的能力)。六组中有四组取得了学生成绩1,五组取得了成绩2、4和7。使用自我和同伴评估表来间接评估学生的成绩5——在团队中有效发挥作用的能力,结果显示,29名学生中有27人达到了成绩。使用匿名调查工具进行间接评估,学生对该项目如何提高他们在所有评估技能方面的能力的反应在统计学上与中性的积极方向不同。学生对项目组织、任务期望、时间安排和难度的看法在统计学上也与中性的积极方向不同。开放式反馈表明,学生们很欣赏学习可再生能源,从现实的客户那里获得真实的数据,以及给予他们的自主权。
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来源期刊
CiteScore
3.00
自引率
28.60%
发文量
13
期刊介绍: The International Journal of Mechanical Engineering Education is aimed at teachers and trainers of mechanical engineering students in higher education and focuses on the discussion of the principles and practices of training professional, technical and mechanical engineers and those in related fields. It encourages articles about new experimental methods, and laboratory techniques, and includes book reviews and highlights of recent articles in this field.
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