Conference Session

Virtual and Online Learning Tools in Chemical Engineering Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Alec Steven Bowen, Oregon State University; Daniel Robert Reid, Oregon State University; Milo Koretsky, Oregon State University

Tagged Divisions

Chemical Engineering

Paper ID #9158Development of Interactive Virtual Laboratories to Help Students Learn Dif-ficult Concepts in ThermodynamicsAlec Steven Bowen, Oregon State University Alec Bowen is an undergraduate in Chemical Engineering at Oregon State University and expects to receive his B.S. in June 2014. His research focuses on engineering education, particularly in the develop- ment and utilization of educational simulations and student personal epistemology.Mr. Daniel Robert Reid, Oregon State University Daniel Reid is a graduate student in the Institute for Molecular Engineering at the University of Chicago. He received his B.S. in

Conference Session

Improving Laboratory Education in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Matthew Cooper, North Carolina State University

Tagged Divisions

Chemical Engineering

division’s newslet- ter editor. Dr. Cooper’s research interests include effective teaching, conceptual and inductive learning, integrating writing and speaking into the curriculum, and professional ethics. Page 24.1236.1 c American Society for Engineering Education, 2014 The Paperless Lab – Streamlining a Modern Unit Operations Laboratory Course to Reduce Faculty Time Commitment1. IntroductionUnit Operations (UO) laboratory courses are important, required offerings in chemicalengineering curricula due to the similarities of required laboratory tasks to those relevant inindustry

Conference Session

Improving Laboratory Education in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Joshua A Enszer, University of Maryland, Baltimore County

Tagged Divisions

Chemical Engineering

toestablish their own experiment designs to explore chemical and physical phenomena related tojunior-level thermodynamics and transport courses. Concepts in statistics and numericalmethods, technical writing, engineering ethics, and laboratory and industrial safety are allintroduced in the scope of this course.This course serves as the first in our curriculum where students are responsible for the creation oflaboratory procedures, in contrast to their typical chemistry labs where experimental methods areprovided. Given a brief (1/2-1 page) prompt explaining the principle of interest and a list ofavailable laboratory equipment, students are required to explicitly outline the objective,hypothesis, and methods of their experiment, followed by

Conference Session

Improving Laboratory Education in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Mary M. Staehle, Rowan University; Tom Merrill, Rowan University; Stephanie Farrell, Rowan University

Tagged Divisions

Chemical Engineering

provide opportunities for open-ended problemsolving, collaborative learning and design, and the application of chemical engineeringprinciples to novel problems. This paper describes the project, sample student solutions,and student feedback.The second strategy involves the development of laboratory experiments that mimicartificial organs in order to reinforce engineering principles. Faculty at RowanUniversity are developing a set of modules focusing on various artificial organs. In thispaper, we highlight the work on the thermoregulatory properties of artificial skin.Human skin contains incredible networks of microcapillaries that, in addition todelivering nutrients, enhance heat exchange between the body core and the environmentas a result of

Conference Session

Improving Laboratory Education in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Joshua A. Levinson, Lafayette College; Eric L. Maase, University of Massachusetts-Lowell; Glen Thomas Tennyson

Tagged Divisions

Chemical Engineering

Paper ID #8705Automated Process Control Laboratory Experience: Simultaneous Temper-ature and Level Control in a Continuously Stirred Tank Reactor SystemDr. Joshua A. Levinson, Lafayette College Levinson is an Assistant Professor in the Department of Chemical & Biomolecular Engineering at Lafayette College. His teaching interests are in senior capstone design, integrated chemical engineering laboratory, transport, and thermodynamics. His research interests are in semiconductor processing technology, mi- crofluidics, transport phenomena, chemical kinetics, and chemical engineering pedagogy.Dr. Eric L. Maase, University of

Conference Session

Improving Laboratory Education in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Jacqueline Gartner Ph.D., Washington State University; David Finkel; Bernard J. Van Wie, Washington State University; Olusola Adesope, Washington State University-Pullman

Tagged Divisions

Chemical Engineering

offer insight to where student incorrectly incorporate information into their schema, andcommunicate the concepts that students fail to integrate into their schema.11The curriculum at the institution is structured such that junior level (third year) students take thefluid mechanics and heat transfer course in the spring, and the follow fall enroll in a unitoperations laboratory. This factor may or may not have influences student’s interview resultsfrom the study, but it was consistent for both the group that received handsIn addition to understanding how schemas are affected, this two-year study also aims to followup on a previous study that conducted interviews of students who had previously taken a fluid

Conference Session

Design, Creativity and Critical Thinking in the Chemical Engineering Curriculum

Collection

2014 ASEE Annual Conference & Exposition

Authors

Christopher R. Anderson, Lafayette College

Tagged Divisions

Chemical Engineering

principles relevant to the transport of drugs inthe body, the design and application of drug delivery systems, and experimental research in thefield of drug delivery. The course covers diverse material including pharmacokineticcompartment modeling, diffusion in drug delivery systems, receptor binding and downstreamcellular processes, and the design and application of drug delivery systems. Students areintroduced to these topics by traditional lecturing of fundamental mass transport principles,interactive learning experiences based on computational and experimental laboratory exercisesand open discussion of relevant peer-reviewed literature. Additionally, students are engaged inthe development of an SBIR-style proposal for investigating the efficacy

Conference Session

Improving Introductory Experiences in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Laura-Ann Shaa Ling Chin, Villanova University; Justinus Agus Budi Satrio, Villanova University; Kenneth A. Kroos, Villanova University

Tagged Divisions

Chemical Engineering

system using MATLAB (STUBA, Bratislava, Slovakia). Laura performed her graduate studies at Villanova University where she obtained her M.Sc also in Chemical Engineering. Her graduate thesis work involves the characterization & upgrading of biocrude-oil from waste lignocellulosic biomass at Villanova’s Chemical Engineering Biomass Conversion & Research Technologies Laboratory under Dr. Justinus Satrio. Currently, Laura is a process engineer for Jacobs Engineering where she is involved in the design of biopharmaceutical facilities. Dr. Justinus Satrio’s Biography Dr. Justinus A. Satrio is an Assistant Professor of Chemical Engineering at Villanova University, Penn

Conference Session

Design, Creativity and Critical Thinking in the Chemical Engineering Curriculum

Collection

2014 ASEE Annual Conference & Exposition

Authors

Bill B. Elmore, Mississippi State University

Tagged Divisions

Chemical Engineering

Engineering Analysis (a three-credit hour studio offered each spring) , our freshmen,in a class size of 80-100, are engaged in a seamless, two-semester problem-based learningexperience.Course structure to accommodate PBLThrough a series of “Team Challenges” (i.e. design projects and experimentation) our freshmancohort engages in activities focused on fundamental STEM concepts and applications to helpthem better visualize and understand the path they have started on to enter engineering practice.Figure 1 illustrates the range of topics covered in Learning Outcomes established for the firstyear experience. To enable sufficient time obviously needed to cover such a broad range oftopics, the Analysis course comprises one credit hour of laboratory and two

Conference Session

Virtual and Online Learning Tools in Chemical Engineering Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Garret Nicodemus, University of Colorado, Boulder; John L. Falconer, University of Colorado, Boulder; Will Medlin, University of Colorado, Boulder; Katherine Page McDanel, University of Colorado, Boulder, Department of Chemical & Biological Engineering; Jeffrey Steven Knutsen, University of Colorado, Boulder, Department of Mechanical Engineering,

Tagged Divisions

Chemical Engineering

promoting engaged exploration with computer simulations”, Phys. Rev. ST Phys. Educ., Res. 6, 020117, 2010.11. M.G. Rasteiro et al. “LABVIRTUAL—A virtual platform to teach chemical processes”, Education for Chemical Engineers, Volume 4, Issue 1, April 2009.12. S. Vaidyanath, J. Williams, M. Hilliard, T. Wiesner. “The development and deployment of a virtual unit ops laboratory”, Chem. Eng. Ed, 41 (2), 144–152, 2007.13. M.D. Koretsky, C. Kelly, and E.S. Gummer. “Student Learning in Industrially Situated Virtual Laboratories”, Chem. Eng. Ed., 45(3), 219-228, 2011.14. P. Mokhasi, J. Adduci, and D. Kapadia. “Understanding differential equations using Mathematica and interactive demonstrations”, CODEE Journal. http

Conference Session

Improving Introductory Experiences in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Gladis Chávez-Torrejón, Universidad de las Americas Puebla; Silvia Husted, Universidad de las Americas Puebla; Nelly Ramirez-Corona, Universidad de las Americas Puebla; Aurelio Lopez-Malo, Universidad de las Americas Puebla; Enrique Palou, Universidad de las Americas Puebla

Tagged Divisions

Chemical Engineering

Thermophysical Properties Laboratory • 3rd semester course and corresponding lab for CE, FE, and EE• Modeling and Simulation in Chemical, Food, and Environmental Engineering • 5th semester course for CE, FE, and EE• Statistical Control of Products and Processes • 6th semester course for CE, FE, and EE• Quality Assurance • 7th semester course for CE, FE, and EE• Chemical Plant Design (CE), Design of Equipment for Environmental Control (EE), or Design and Development of Food Products and Processes (FE) • 8th semester courses. ! Capstone courseUsing the Framework for 21st Century Learning12, and Guidelines from Research on HowPeople Learn15, 16 UDLAP defined the standards for chemical

Conference Session

Virtual and Online Learning Tools in Chemical Engineering Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Susan M. Montgomery, University of Michigan

Tagged Divisions

Chemical Engineering

Education, 2014 Incorporating the Online Encyclopedia of Chemical Engineering Equipment Into Your Course ActivitiesAbstractStudents in chemical engineering courses often bemoan the lack of information regarding actualchemical engineering equipment in our curricula. To address this critical need in our curriculaour laboratory has devoted twenty years to the development of an online visual encyclopedia ofchemical engineering equipment, aimed at chemical engineering undergraduate students. Thisencyclopedia provides students with a basic understanding of what chemical engineeringequipment looks like and how it works. In our paper we describe the encyclopedia and presentways to incorporate the encyclopedia into core

Conference Session

Curriculum Development and Assessment in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Debra M. Gilbuena, Oregon State University; Christina Smith, Oregon State University; Bill Jay Brooks, Oregon State University; Milo Koretsky, Oregon State University

Tagged Divisions

Chemical Engineering

Paper ID #9125Examining Diffusion Networks and Identifying Opinion Leaders: A CaseStudy of the AIChE Concept WarehouseDr. Debra M. Gilbuena, Oregon State University Debra Gilbuena is a postdoctoral scholar in the School of Chemical, Biological, and Environmental Engi- neering at Oregon State University. Debra has an M.BA, an M.S, and four years of industrial experience including a position in sensor development. Sensor development is also an area in which she holds a patent. She currently has research focused on student learning in virtual laboratories and the diffusion of educational interventions and

Conference Session

Virtual and Online Learning Tools in Chemical Engineering Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Mary M. Staehle, Rowan University; Babatunde A Ogunnaike, University of Delaware

Tagged Divisions

Chemical Engineering

. and R.D. Braatz (2002). Experimental projects for the process control laboratory. Chemical Engineering Education, 36(3): 182-187.[23] Pérez-Herranz, V., A.I. Muñoz, J.L. Guiñon, J. Garcia-Antón, S.C. Navarrete (2003). An Internet-based Process Control Laboratory Project. Proceedings of the International Conference on Engineering Education, 21-25.[24] Selmer, A., M. Goodson, M. Kraft, S. Sen, V.F. McNeill, B.S. Johnston, C.K. Colton (2005). Performing Process Control Experiments Across the Atlantic. Chemical Engineering Education 39(3): 232-237.[25] Gossage, J.L., C.L. Yaws, D.H. Chen, K. Li, T.C. Ho, J. Hopper, D.L. Cocke (2001). Integrating best practice pedagogy with computer-aided modeling and simulation to improve

Conference Session

Improving Introductory Experiences in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Richard L. Zollars, Washington State University

Tagged Divisions

Chemical Engineering

is the critique phase of SBLwherein the Evaluation (Evaluate) level of the taxonomy is clearly invoked. This aspect oflearning is not incorporated in many active learning procedures but clearly is an essential part ofSBL.A drawback to the implementation of SBL in a traditional class is that it is time-intensive. Asthe title suggests, this technique has most frequently been used in studio-based classes. The classtime allotted for studio sessions is more typical of that for a laboratory class in engineering—twoto three hours. So while the SBL approach might work in a class for which an extendedrecitation section is part of the class, the time constraints inherent in a typical one-hour classwould seem to be a large impediment to using SBL. With

Conference Session

Chemical Engineering Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Cheryl A. Bodnar, University of Pittsburgh; Eric J. Beckman, University of Pittsburgh, Chemical Engineering Department; Joseph J. McCarthy, University of Pittsburgh; Steven R. Little, University of Pittsburgh

Tagged Divisions

Chemical Engineering

chemical productdesign class and laboratory class (for a combination of three credits). The senior levelprototyping class did not require modification to the curriculum as it is listed as an elective. Weanticipate that with the nature of the first two classes in the sequence there will be a strongdemand by students for this elective level class.Introduction to Chemical Product DesignThis course is the first one in the sequence and is taken in the spring semester of sophomoreyear. The educational learning objectives for this course are students will be able to (1) utilizedocumented brainstorming techniques and then select the best idea for further study, (2) collectand analyze customer information in order to generate a customer value proposition

Conference Session

Curriculum Development and Assessment in Chemical Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Vincent Wilczynski, Yale University; Isabella M. Quagliato, Yale University: School of Engineering & Applied Science

Tagged Divisions

Chemical Engineering

Charles Stark Draper Laboratory and at the Harvard School of Public Health, and was the National Director of the FIRST Robotics Competition. His professional interests are in the areas of data acquisition and analysis, mechanical design and virtual teams for product development. He presently serves on the Executive Advisory Board of the FIRST Foundation and on the Naval Engineering in the 21st Century Committee of the National Academy of Engineering. Previously he served as the Vice President of Public Awareness for the American Society of Mechanical Engineers, as a national officer of the American Society for Engineering Education, and as an evaluator for the New England Association of Schools and Colleges. Dr