Conference Session

Enviromental Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Araceli Martinez Ortiz, Texas State University, San Marcos; Bahram Asiabanpour, Texas State University; Semih Aslan, Texas State University, San Marcos; Jesus Alejandro Jimenez, Texas State University; Yoo-Jae Kim, Texas State University; Hassan Salamy, Texas State University

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering

provides a strong educational experience via theorycombined with practice in a class/lab atmosphere. Dedicated faculty and staff are directlyinvolved in classes and labs, and each degree program culminates with a senior design or"Capstone" project, which is required for graduation. Capstone projects emphasize projectmanagement, technical deliverables, and multidisciplinary effort in team-oriented, long-termprojects. As a result of the heavy emphasis on practical, applied, and experiential learning,students who graduate from ISOE are well prepared for careers in all aspects of engineering. Theschool has more than 800 engineering students. In addition to modern classrooms and computerlabs, ISOE has fully equipped labs including a class 1000

Conference Session

Environmental Engineering Technical Session 4: Environmental Issues and the Impacts of Intersectionality

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Shannon Katherine Gilmartin, Stanford University; Angela Harris, North Carolina State University; Christina Martin-Ebosele, Stanford University; Sheri Sheppard, Stanford University

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering, Women in Engineering

their students’ professional arcs and curricular supports for those arcs? With a smalldataset, we aim to start to delve into these questions.2.0 Background of the StudyTo situate our work, we begin with an overview of environmental engineering degree attainmentin the United States by gender, race, and ethnicity, and consider broadly relevant dimensions ofstudents’ environmental engineering educational experience. We then explore the cultural andinstitutional spaces that environmental engineering graduates move into as they enter theworkforce. Specifically, we consider the gendered and racialized social context within whichenvironmental engineering majors make decisions about their careers—how gender and racefactor into the impact of

Conference Session

Environmental Engineering Division Technical Session 2

Collection

2018 ASEE Annual Conference & Exposition

Authors

Angela R. Bielefeldt, University of Colorado, Boulder; Greg Rulifson P.E., Colorado School of Mines

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering

decisions for environmental engineering students.This study sought to provide more information on these elements, by gaining a richunderstanding of the experiences of students using qualitative approaches less likely to biasstudent responses.Research QuestionsThree topics were explored in this study:RQ1. Understand how students’ motivations for environmental issues in combination with other factors led them to choose to enter college with an engineering majorRQ2. Understand the reasons that engineering students change majors or persist in their major, among undergraduate students initially having strong environmental interestsRQ3. Explore how students view environmental issues as part of their future engineering career pathways and among the

Conference Session

Sustainability and Hands-on Engineering Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Angela R Bielefeldt, University of Colorado, Boulder

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering

awareness(including “an ability to use what you know about different cultures, social values, or politicalsystems in engineering solutions) and interdisciplinary skills. However, in their analysiscontextual awareness clustered with design skills, while interdisciplinary skills clustered withreflective behavior practice, and recognizing disciplinary perspectives. A small pilot study at theUniversity of Canterbury among students majoring in civil engineering and natural resourcesengineering in fall 2013 found correlations between sustainable engineering motivation andconcern for others (Bielefeldt unpublished data).The research questions explored in this study were: (1) to what extent are incomingenvironmental engineering students motivated by

Conference Session

Environmental Engineering Division: Sustainability and Hands-On Engineering Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Paula Alvarez Pino, UAB Sustainable Smart Cities Research Center; Andrew J. Sullivan; Fouad H. Fouad, University of Alabama - Birmingham

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering

within sustainability is addressed:1. Sustainable Transportation and Energy Conservation • Importance of transportation • Active transportation (bikes, peds, and complete streets) • Energy use, emissions, and conservation (Figure 1)2. Environmental Health • Air and water quality • Hazardous materials • Indoor environments • Water use reduction • Waste minimization and recycling3. Field Trip “ Eco–Awareness” • During this field trip in one of the mountains of our city, students encounter the amazing diversity of the forest ecosystem. This field trip explores the interdependence of the environment, plants, and animals on a 3 mile hike. Students also participate in an environmentally focused role play activity

Conference Session

Environmental Engineering Division Technical Session 1

Collection

2018 ASEE Annual Conference & Exposition

Authors

Fethiye Ozis P.E., Northern Arizona University; Sahar Razavi, Northern Arizona University; Nihal Sarikaya, Northern Arizona University

Tagged Topics

Diversity

Tagged Divisions

Environmental Engineering

Group Publishing Ltd., 2015, vol. 17, pp.143-175.[19] D. Lopatto, “Undergraduate research experiences support science career decisions and active learning,” Cell Biology Education, vol. 6, no. 4, pp. 297-306, 2007.[20] M. Boylan, “The impact of undergraduate research experiences on student intellectual growth, affective development, and interest in doing graduate work in STEM: A review of the empirical literature,” in Doctoral Education and the Faculty of the Future, Cornell University, Ithaca, NY, Oct. 2006. http://www.ilr.cornell.edu/cheri/conferences/doctoralEducation.html[21] K.W. Bauer, J.S. Bennett, “Alumni perceptions to assess undergraduate research experience,” J. Higher Educ., vol. 74, pp. 210