Incorporating Sustainable Engineering Design Principles into Senior Design Proposals

Sustainability as a multidisciplinary concept has been introduced and developed for over twenty years, and its principles have been well recognized by engineering professionals, especially in environmental-related fields. However, it remains challenging for most engineering educators to engage students with such a concept in their traditional technical courses. It is even more challenging to prepare students for integrating the sustainability principles into their engineering design process since it requires knowledge, training and practice. In our engineering program, senior engineering students are required to prepare their senior design proposals in a fall semester and complete the project in the following spring semester. The topics of senior design projects are chosen by students, not professors. Since last year, each team is required to evaluate the project from a sustainability point of view in the final report. Accordingly, a new approach is proposed in this paper to enhance students’ understanding of sustainable engineering design principles and to help them synthesize sustainability concepts already introduced in previous courses. This new process starts right after the students select the project topic and form in teams. A six-factor table proposed by Pawley et al. is introduced to the students. This framework is used to evaluate an engineering project at the early stage on six factors, i.e. systems, time, energy, modeling, people and scale. Each team uses the framework as an anchor to identify the sustainability related opportunities and potential issues with the topic the team selects. Then an integrated sustainable engineering design process is adopted which includes eight more tasks in addition to the thirteen tasks required in a traditional engineering design process. Consequently, each team is required to develop a sustainable engineering design flowchart that specifically ties to the team project. For an assessment purpose, preand postanonymous student surveys are developed and implemented. The results on Likert-scale and multiple choice questions are analyzed and discussed.

[1]  M. Mina,et al.  Solving multidimensional problems through a new perspective : The integration of design for sustainability and engineering education , 2022 .

[2]  Karl R. Haapala,et al.  Integrating Sustainable Manufacturing Assessment into Decision Making for a Production Work Cell , 2015 .

[3]  Jane M. Fraser,et al.  Teaching Sustainability in an Engineering Graphics Class with Solid Model- ing Tool , 2013 .

[4]  Jacqueline El-Sayed,et al.  Integration of Environmental Sustainability with Capstone Experience , 2013 .

[5]  Stephen P. Mattingly,et al.  Integrating sustainability across the curriculum: Engineering Sustainable Engineers , 2012 .

[7]  Ding Yuan,et al.  Incorporating a Sustainability Module into an Introduction to Engineering Course , 2013 .

[8]  Steven J. Burian,et al.  Analysis of the Sustainability Culture in Civil and Environmental Engineering and Mechanical Engineering Programs , 2012 .

[9]  Ding Yuan,et al.  Integration of Sustainability in a Multidisciplinary Engineering Department , 2014 .

[10]  Jens-Uwe Repke,et al.  Introducing sustainability assessment and selection (SAS) into chemical engineering education , 2012 .

[11]  Caroline R. Noyes,et al.  Use of Concept Maps to Assess Student Sustainability Knowledge , 2014 .

[12]  Roland Leduc,et al.  From a conventional to a sustainable engineering design process: different shades of sustainability , 2012 .

[13]  T. Seager,et al.  Assessing sustainability knowledge: a framework of concepts , 2014 .

[14]  Raymond B. Landis,et al.  Studying Engineering: A Road Map to a Rewarding Career , 1995 .

[15]  Elise Barrella,et al.  Development and Application of a Sustainable Design Rubric to Evaluate Student Abilities to Incorporate Sustainability into Capstone Design Projects , 2013 .

[16]  Cynthia J. Atman,et al.  Conceptions of the Engineering Design Process: An Expert Study of Advanced Practicing Professionals , 2005 .

[17]  Willem H. Vanderburg On the Measurement and Integration of Sustainability in Engineering Education , 1999 .

[18]  Stefan J. Grimberg,et al.  A Theme‐Based Seminar on Environmental Sustainability Improves Participant Satisfaction in an Undergraduate Summer Research Program , 2008 .

[19]  Robert L. Nagel,et al.  An Innovative Two-Year Engineering Design Capstone Experience at James Madison University , 2013 .