Displaying all 6 results
- Conference Session
- Community Engagement Division Technical Session 3
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Randy S. Lewis, Brigham Young University; Terri Christiansen Bateman, Brigham Young University
- Tagged Divisions
- Community Engagement Division
Paper ID #18534Global Humanitarian-based Projects: A Documentation Strategy for Strength-ening Project SustainabilityDr. Randy S. Lewis, Brigham Young University Dr. Randy S. Lewis is professor and chair of Chemical Engineering at Brigham Young University (BYU). He received his B.S. and Ph.D. in Chemical Engineering from BYU and Massachusetts Institute of Tech- nology, respectively. He currently serves as vice-chair of the Education and Accreditation Committee of the American Institute of Chemical Engineers (AIChE) and as an ABET commissioner for accrediting engineering programs. He previously served in several national
- Conference Session
- Community Engagement Division Technical Session 3
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Jennifer Q Retherford, University of Tennessee, Knoxville; J. A. M. Boulet, University of Tennessee, Knoxville; Chris Wetteland, University of Tennessee, Knoxville
- Tagged Divisions
- Community Engagement Division
Paper ID #18808Case Study: A College-Wide Engineering Capstone Experience at the Uni-versity of TennesseeDr. Jennifer Q Retherford, University of Tennessee, Knoxville Dr. Retherford is an alumna of the University of Nebraska, Omaha, and received her graduate degrees from Vanderbilt University. She currently teaches a variety of courses supporting the department of Civil & Environmental Engineering at the University of Tennessee. Among many structural engineer- ing courses, Dr. Retherford manages the Senior Design Project course for all undergraduate seniors.Dr. J. A. M. Boulet, University of Tennessee, Knoxville J. A. M
- Conference Session
- Community Engagement Division Technical Session 1
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Kellie Schneider, University of Dayton
- Tagged Divisions
- Community Engagement Division
. Asmy partnership with The Foodbank has grown, our projects are developed using a morecommunity-engaged methodology as shown in Figure 2 [2]. Using this methodology, we stillwork closely with our partners to develop our research questions, but now, our projects focusmore on the co-creation of knowledge as well as social and cultural change.Thus far, students have either participated in the projects as part of a summer research experience(community gardens) or through an Engineering Management master’s capstone project(donation collection and audit scheduling). To successfully complete the capstone project,students are expected to identify a significant problem, locate the necessary data and informationto solve the problem, and utilize the
- Conference Session
- Thinking Globally, Acting Locally: The Role of Engineering Education towards Attaining UN Sustainable Development Goals
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Charles Cowan, James Madison University; Elise Barrella P.E., James Madison University; Mary Katherine Watson, The Citadel; Robin Anderson, James Madison University
- Tagged Divisions
- Civil Engineering, Community Engagement Division, Liberal Education/Engineering & Society, Minorities in Engineering
full list in Table 1). While the rubric was designed to allowfor assessment of a variety of project types, it has only been applied to civil engineering studentdesign projects.5The rubric includes two four-point rating scales to aid evaluators in judging capstone reportsbased on the 16 sustainable design criteria. The earned points scale [0-3] captures the extent towhich students consider each sustainable design criterion in their capstone projects. Evaluatorsassign a score of 0 to projects that show no evidence of incorporating the design criterion, whilea score of 3 is assigned if the project shows evidence of extensive criterion application. Thepotential points scale [0-3] describes the extent to which each sustainable design criterion
- Conference Session
- Community Engagement Division Technical Session 5
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Derek Breid, Saint Vincent College; Lawrence Machia, Saint Vincent College
- Tagged Topics
- Diversity
- Tagged Divisions
- Community Engagement Division
higher enrollments in subsequent years. Secondly, itwould offer our students a chance to work on a real-world engineering design problem thatwould make a lasting impact on the community. Along with the transport course, the potentialwould exist for students to complete their capstone design project by continuing their work onthe evaporator. For the syrup-making program, the main benefit would be an evaporator withimproved efficiency and/or safety, making the syrup production process easier and more flexible.They would also gain some insight into how the engineering field views the world, andpotentially increase their technical and scientific literacy. This could help to improve otheraspects of production not specifically addressed by the student
- Conference Session
- Community Engagement Division Technical Session 3
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Randy S. Lewis, Brigham Young University; Terri Christiansen Bateman, Brigham Young University; Michaela Sutton; Ethan Hasler; Jessica Lee Williams; Jennifer J Irvin, Brigham Young University; Joseph Richley Hirt, Brigham Young University
- Tagged Divisions
- Community Engagement Division
development, engineering education, product design for developing areas, and the utilization of renewable resources for the production of chemicals.Ms. Terri Christiansen Bateman , Brigham Young University Terri Bateman is adjunct faculty in the Brigham Young University College of Engineering and Technol- ogy where she has worked with Women in Engineering and Technology at BYU, numerous mechanical engineering capstone senior design teams, the Global Engineering Outreach class, and the Compliant Mechanisms Research Group. She received her bachelor’s and master’s degrees in Mechanical Engineer- ing from BYU and also worked at the Ford Motor Company as a manufacturing and design engineer in Automatic Transmission