Faculty Perspectives on Sustainability Integration in Undergraduate Civil and Environmental Engineering Curriculum
Publication: Journal of Professional Issues in Engineering Education and Practice
Volume 144, Issue 3
Abstract
Engineering courses that incorporate sustainability provide students with tools to solve the pressing problems of our future and a meaningful way to connect with their education through introduction of the global, societal, and environmental issues in engineering. Despite this, disconnects exist between engineering programs across the country in their ability to merge sustainability into the schools’ undergraduate curricula. Engineering faculty are integrating sustainability into curriculum, but many struggle with the best methods to update curriculum and to overcome the barriers to teaching these emerging topics. This paper elucidates and explores faculty perceptions about the importance of sustainability in civil and environmental engineering (CEE) education as well as methods for and barriers to its incorporation in CEE courses. Specifically, it presents results of a survey administered to faculty at two institutions as well as to attendees at an Association of Environmental Engineering and Science Professors (AEESP) preconference workshop. Findings show that most sustainability content is currently taught in the later years of undergraduate students’ education while most faculty continue to employ traditional lecture-based teaching methods.
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References
AASHE (Association for the Advancement of Sustainability in Higher Education). 2017. “The sustainability tracking, assessment & rating system (STARS).” Accessed October 14, 2017. https://stars.aashe.org/.
ABET (Accreditation Board for Engineering and Technology). 2015. “Criteria for accrediting engineering programs, 2016–2017.” Accessed August 16, 2016. http://www.abet.org/accreditation/accreditation-criteria/criteria-for-accrediting-engineering-programs-2016-2017/-curriculum.
ABET (Accreditation Board for Engineering and Technology). 2016. “Accreditation alerts.” Accessed August 17, 2016. http://www.abet.org/accreditation/accreditation-criteria/accreditation-alerts/.
AEESP. 2015. “Sustainability in Engineering Education Workshop.” Accessed June 29, 2016. http://links.asu.edu/sustainability-in-engineering.
Allenby, B., D. Allen, and C. Davidson. 2007. “Sustainable engineering: From myth to mechanism.” Environ. Qual. Manage. 17 (1): 17–26.
Allenby, B., C. F. Murphy, D. Allen, and C. Davidson. 2009. “Sustainable engineering education in the United States.” Sustainability Sci. 4 (1): 7–15.
ASCE. 2008. Civil engineering body of knowledge for the 21st century: Preparing the civil engineer for the future. Reston, VA: ASCE.
Bielefeldt, A. 2011. “Incorporating a Sustainability module into first-year courses for civil and environmental engineering students.” J. Prof. Issues Eng. Educ. Pract. 137 (2): 78–85.
Bilec, M. M., C. Hendrickson, A. E. Landis, and H. S. Mathews. 2011. “Updating the benchmark sustainable engineering education report—Trends from 2005 to 2010.” In Proc., American Society for Engineering Education 2011 Annual Conf. and Exposition. Reston, VA: ASCE.
Bodnar, C. A., D. Anastasio, J. A. Enszer, and D. D. Burkey. 2016. “Engineers at play: Games as teaching tools for undergraduate engineering students.” J. Eng. Educ. 105 (1): 147–200.
Christ, J. A., J. L. Heiderscheidt, M. Y. Pickenpaugh, T. J. Phelan, J. B. Pocock, M. S. Stanford, G. E. Seely, P. C. Suermann, and T. M. Twesme. 2015. “Incorporating sustainability and green engineering into a constrained civil engineering curriculum.” J. Prof. Issues Eng. Educ. Pract. 141 (2): C4014004.
Dancz, C. L., K. J. Ketchman, R. D. Burke, T. A. Hottle, K. Parrish, M. M. Bilec, and A. E. Landis. 2017. “Utilizing civil engineering senior design capstone projects to evaluate students’ sustainability education across engineering curriculum.” Adv. Eng. Educ. 6 (2): 2.
Davidson, C. I., et al. 2007. “Viewpoint: Adding sustainability to the engineer’s toolbox: A challenge for engineering educators.” Environ. Sci. Technol. 41 (14): 4847–4849.
Davidson, C. I., B. R. Allenby, L. M. Haselbach, M. Heller, and W. E. Kelly. 2016. “Educational materials on sustainable engineering: Do we need a repository.” Elem Sci Anth. 4: 89.
Felder, R. M., R. Brent, and M. J. Prince. 2011. “Engineering instructional development: Programs, best practices, and recommendations.” J. Eng. Educ. 100 (1): 89–122.
Haidet, P., R. O. Morgan, K. O’Malley, B. J. Moran, and B. F. Richards. 2004. “A controlled trial of active versus passive learning strategies in a large group setting.” Adv. Health Sci. Educ. 9 (1): 15–27.
Hoffman, S., I. Hua, E. Blatchley, and L. Nies. 2010. “Integrating sustainability into courses across the engineering curriculum: A faculty workshop model.” Accessed October 12, 2016. https://peer.asee.org/16732.
Kagawa, F. 2007. “Dissonance in students’ perceptions of sustainable development and sustainability: Implications for curriculum change.” Int. J. Sustainability Higher Educ. 8 (3): 317–338.
Ketchman, K., C. L. A. Dancz, R. D. Burke, K. Parrish, A. E. Landis, and M. M. Bilec. 2017. “Sustainable engineering cognitive outcomes: Examining different approaches for curriculum integration.” J. Prof. Issues Eng. Educ. Pract. 143 (3): 04017002.
Klotz, L., G. Potvin, A. Godwin, and J. Cribbs. 2014. “Sustainability as a route to broadening participation in engineering.” J. Eng. Educ. 103 (1): 137–153.
Luo, Y., et al. 2015. “Chemical engineering academia-industry alignment: Expectations about new graduates.” Accessed September 2, 2016. http://www.aiche.org/sites/default/files/docs/conferences/2015che_academicindustryalignmentstudy.compressed.pdf.
McCormick, M., A. R. Bielefeldt, C. W. Swan, and K. G. Paterson. 2015. “Assessing students’ motivation to engage in sustainable engineering.” Int. J. Sustainability Higher Educ. 16 (2): 136–154.
National Academy of Engineering. 2008. Changing the conversation: Messages for improving public understanding of engineering. Washington, DC: National Academies Press.
National Academy of Engineering. 2015. “Grand challenges for engineering.” Accessed August 16, 2016. http://www.engineeringchallenges.org/cms/8996.aspx.
NSPE Executive Committee. 2007. NSPE code of ethics for engineers. Alexandria, VA: National Society of Professional Engineers.
Slavin, R. E. 1992. Research methods in education. Boston, MA: Allyn & Bacon.
Smith, K. A., S. D. Sheppard, D. W. Johnson, and R. T. Johnson. 2005. “Pedagogies of engagement: Classroom-based practices.” J. Eng. Educ. 94 (1): 87–101.
Striebig, B., T. Jantzen, K. Rowden, J. Dacquisto, and R. Reyes. 2006. “Learning sustainability by design.” Environ. Eng. Sci. 23 (3): 439–450.
Syracuse University. 2016. “Center for Sustainable Engineering.” Accessed June 30, 2016. www.csengin.org.
Zhang, Q., L. Vanasupa, J. R. Mihelcic, J. B. Zimmerman, and S. Platukyte. 2012. “Challenges for integration of sustainability into engineering education.” In Proc., American Society for Engineering Education. Washington, DC: American Society for Engineering Education.
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Published In
Journal of Professional Issues in Engineering Education and Practice
Volume 144 • Issue 3 • July 2018
Copyright
©2018 American Society of Civil Engineers.
History
Received: Jul 19, 2017
Accepted: Jan 29, 2018
Published online: May 14, 2018
Published in print: Jul 1, 2018
Discussion open until: Oct 14, 2018
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