for assessing individual contributions to the team assignments. The authors present an assessment of the impact of the abstracts, specifically addressing the following question: Did students attain the learning objectives of the course more thoroughly than students in a previous cohort, who completed comparable homework problems in teams of the same size, but who were not required to write abstracts? Introduction The introductory chemical engineering course at most universities focuses on material and energy balances. Historically this course has had the reputation of being a conceptually demanding course that induces fear in many studentsi. One of the greatest challenges faced by many students is the solution of “word problems” which
engineering program and the computerscience program have been working on developing two software packages to aid studentsin developing their skills in the material and energy balance course in the chemicalengineering curriculum. The first of these (Chemical Process Visualizer – ChemProV) isa software package developed to assist students in converting written descriptions into agraphical format and then into a mathematical representation. It also provides a singleformat for the communication of the solutions to material/energy balance problemsbetween students . The second software package (On-Line Studio-Based LearningEnvironment – OSBLE) provides a means whereby the ChemProV solutions can beshared between students in an asynchronous online
and in other courses for teaching aspects of fluid flow,material and energy balances, thermodynamics, and process control.IntroductionTo accommodate recent increases in enrollment, we had a need for a relatively inexpensive newexperiment in our unit operations laboratory. We also had a need to include hands-on experiencewith process control in our curriculum and a desire to provide more hands-on experience in oursophomore material and energy balance and thermodynamics courses. We developed a versatilenew air flow experiment to accomplish all these goals. Having undergraduate students helpdesign, construct, and test the new equipment as their senior theses also provided an excellenteducational experience for the students involved.As shown in
Paper ID #7531Promoting Metacognition through Reflection Exercises in a Thermodynam-ics CourseProf. Mariajose Castellanos, University of Maryland, Baltimore CountyDr. Joshua A Enszer, University of Maryland Baltimore County Dr. Joshua Enszer is a full-time lecturer in Chemical Engineering at the University of Maryland at Bal- timore County. He has taught core and elective courses across the curriculum, from introduction to en- gineering science and material and energy balances to process control and modeling of chemical and environmental systems. His research interests include technology and learning in various incarnations
Paper ID #6320A Comparison of Peer Evaluation Methods in Capstone DesignDr. Joshua A Enszer, University of Maryland Baltimore County Dr. Joshua Enszer is a full-time lecturer in Chemical Engineering at the University of Maryland Baltimore County. He has taught core and elective courses across the curriculum, from introduction to engineering science and material and energy balances to process control and modeling of chemical and environmental systems. His research interests include technology and learning in various incarnations: electronic port- folios as a means for assessment and professional development, implementation
. Representative slide illustrating an API synthesis “campaign.”Introducing Pharmaceutical Technology through Educational Materials for UndergraduateEngineering CoursesThis workshop module consisted of an interactive presentation integrated with example problemsand demonstrations. There were two major parts to this module: illustrative problem sets forlower-division chemical engineering courses focusing on topics from drug formulation toproduction; and life cycle methodology to evaluate API manufacture. The educational materialsconvey essential concepts in pharmaceutical terminology, drug delivery, and manufacturingwithin the context of a material and energy balance calculation. Problems introduce apharmaceutical “term of art,” manufacturing process, or
. Bullard, Margot A. Vigeant, “How We Teach: Material and Energy Balances”, Proceedings of the 2012 Annual Meeting of the American Society for Engineering Education, 2012. Page 23.675.14Appendix A. Print version of online survey. Page 23.675.15
a “broader impact”component in all grant proposals.7 Transportability is specifically emphasized in the newTransforming Undergraduate Education, in Science, Technology, Engineering and Mathematics(TUES) Program, which requires transportability as a main component for funding of proposals.8In this paper, we investigate the transportability and initial diffusion of the AIChE ConceptWarehouse.The AIChE Concept WarehouseOverviewThe AIChE Concept Warehouse, a cyber-enabled infrastructure for conceptual questions, wasdeveloped with the goal of creating a community of learning within the discipline of chemicalengineering (ChE) focused on concept-based instruction. This tool can be used throughout thecore ChE curriculum (Material and Energy
design courses tend to focus on the formulation of steady-state modelsin which material and energy balances are obtained and unit operations are simulated. Theresulting knowledge allows equipment to be sized, operating costs to be evaluated, and overallplant economics to be estimated. Such information also provides the basis for producing apreliminary process flow diagram (PFD). The operation of the process at the design conditionprovides a single operating point, and, while off-design conditions are sometimes considered,they are often not taken into account in the preliminary design.In practice, the actual operating point of the process will rarely be at the design conditions.Moreover, the process will have to be started up and shut down many