Conference Session

Hands-On Projects and Demos

Collection

2018 ASEE Annual Conference & Exposition

Authors

Lucas James Landherr, Northeastern University; Courtney Pfluger, Northeastern University; Ryan A Koppes, Northeastern University

Tagged Divisions

Chemical Engineering

Paper ID #22563The River Project: an Open-Ended Engineering Design Challenge from Bench-Scale to Pilot-ScaleDr. Lucas James Landherr, Northeastern University Dr. Lucas Landherr is an associate teaching professor in the Department of Chemical Engineering at Northeastern University, conducting research in engineering education.Dr. Courtney Pfluger, Northeastern University Dr. Courtney Pfluger received her Doctoral degree in Chemical Engineering from Northeastern University in 2011. In the fall of 2011, she took a position as an Assistant Teaching Professor at Northeastern University in the College of Engineering as a part of

Conference Session

Diversity and Global Experiences

Collection

2018 ASEE Annual Conference & Exposition

Authors

Jamie Gomez, University of New Mexico; Vanessa Svihla, University of New Mexico

Tagged Topics

Diversity

Tagged Divisions

Chemical Engineering

project management andcommunication, particularly communicating outside of engineering. Overall, the sophomorestended to report similar numbers of team members with each professional skill as the seniors.Whereas the seniors could clearly distinguish between the professional skill areas, thesophomores were not adept at this.To understand the impact of the team asset-mapping activity, we compared the sophomores’scores on items from a peer evaluation conducted twice during the semester. Early in thesemester, students tended to report some difficulty managing conflicts related to team tasks, butby the end of the semester, significantly fewer teams did so.We also describe an asset-based modification we made to the teams in the senior capstone

Conference Session

ChemE Curriculum: Junior, Senior, and Graduate

Collection

2018 ASEE Annual Conference & Exposition

Authors

Angela R Bielefeldt, University of Colorado, Boulder; Madeline Polmear, University of Colorado, Boulder; Chris Swan, Tufts University; Daniel Knight, University of Colorado, Boulder; Nathan E. Canney

Tagged Divisions

Chemical Engineering

capstone design (72%). Other course types believed to include ESI educationwere: sophomore/junior engineering science/ engineering courses (49%), design-focused coursesin sophomore to senior year (non-capstone; 45%), first-year introductory courses (43%),humanities and/or social science courses (35%), first-year design focused courses (26%),professional issues courses (24%), full course on ethics (15%), or “other” courses/co-curricularactivities (13%). Course types written in as “other” included: laboratory courses, safety course,inter-professional team project course, and “students are required to take a "Technology inSociety" course chosen from a list of ~15 courses that meet this category”.There was a median of three different course types that

Conference Session

Chemical Engineering Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Matthew Lucian Alexander P.E., Texas A&M University, Kingsville

Tagged Topics

Diversity

Tagged Divisions

Chemical Engineering

) water use minimization orrecycling; and (4) harsh or hazardous chemical or catalyst substitution. Once students areintroduced to these concepts, they are expected to incorporate them to the extent applicable intheir chemical process selected for the capstone design experience in Design III. The fourthconcept of hazardous chemical substitution has rarely been implemented based on theinstructor’s experience in the senior design courses, since this tends to be more in the purview ofchemical product development rather than chemical process formulation and simulation. The listof chemical processes offered to students for their senior design project topic are commonly bulkorganic chemical production processes that typically include reactor conditions

Conference Session

Diversity and Global Experiences

Collection

2018 ASEE Annual Conference & Exposition

Authors

Randy S. Lewis, Brigham Young University; Terri Christiansen Bateman, Brigham Young University; Carol J. Ward, Brigham Young University

Tagged Topics

Diversity

Tagged Divisions

Chemical 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, and the Compliant Mechanisms Research Group. She received her bachelor’s and master’s degrees in Mechanical Engineering from BYU and also worked at the Ford Motor Company as a manufacturing and design engineer in Automatic Transmission Operations.Prof. Carol J. Ward, Brigham Young University Carol J. Ward is

Conference Session

ChemE Curriculum: Junior, Senior, and Graduate

Collection

2018 ASEE Annual Conference & Exposition

Authors

Erick S. Vasquez, University of Dayton; Zachary J. West, University of Dayton; Matthew Dewitt, University of Dayton; Robert J. Wilkens, University of Dayton; Michael J. Elsass, University of Dayton

Tagged Topics

Diversity

Tagged Divisions

Chemical Engineering

availability. Overall, a total of six experiments are performed: a calibrationexperiment, three core unit operations experiments (focusing on heat transfer, fluid flow, andseparation process), an operability study, and a final project. A full detail calendar for the term isshown in Table 1. The calibration experiment is the first required report, and it is focused onverifying the existing instrumentation or recommend a calibration for a piece of equipment suchas a rotameter or pump. For the three core experiments, the students have two weeks ofexperimentation and one additional week to write a report. The operability study is performedduring one week of experimentation, and the students make a presentation or write a two-pagememo to summarize their

Conference Session

ChemE Curriculum: Junior, Senior, and Graduate

Collection

2018 ASEE Annual Conference & Exposition

Authors

Margot A. Vigeant, Bucknell University; David L. Silverstein P.E., University of Kentucky; Kevin D. Dahm, Rowan University; Laura P. Ford, University of Tulsa; Jennifer Cole, Northwestern University; Lucas James Landherr, Northeastern University

Tagged Divisions

Chemical Engineering

, University of Tulsa LAURA P. FORD is an Associate Professor of Chemical Engineering at the University of Tulsa. She teaches engineering science thermodynamics and fluid mechanics, mass transfer, and chemical engineer- ing senior labs. She is a co-advisor for TU’s student chapter of Engineers Without Borders USA. Her email address is laura-ford@utulsa.edu.Dr. Jennifer Cole, Northwestern University Jennifer Cole is the Assistant Chair in Chemical and Biological Engineering in the Robert R. McCormick School of Engineering and Applied Science at Northwestern University. Dr. Cole’s primary teaching is in capstone and freshman design, and her research interest are in engineering design education.Dr. Lucas James Landherr

Conference Session

Works-in-Progress Postcard Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Tracy L. Carter, Northeastern University; Samira M. Azarin, University of Minnesota, Twin Cities; Janie Brennan, Washington University in St. Louis; Elizabeth Hill, University of Minnesota Duluth; Amy J. Karlsson, University of Maryland - College Park

Tagged Divisions

Chemical Engineering

must betaught in the core courses [8]. According to a Summer/Fall 2015 survey of chemical engineeringprograms, only 23% of the 148 programs required a chemical process safety course [10]. Morerecent ASEE course surveys of Material and Energy Balances, Kinetics and Process Controlcourses indicate that 60-80% of those courses include a safety topic in the course [11, 12, 13].Core capstone courses are a natural fit for safety outcomes, as are upper level courses such asUnit Operations (UO) laboratories [7]. UO laboratories, as a core course that has designexperience and/or experiments within it, is an optimal place for safety outcomes to be covered.  It should be noted that the need for process safety education is not new; the challenge is