Displaying all 12 results
- 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
Paper ID #9339A Course in Problem Solving with Experimental DesignDr. Joshua A Enszer, University of Maryland, Baltimore County Page 24.39.1 c American Society for Engineering Education, 2014 A Course in Problem Solving with Experimental DesignAbstractTo address needs for accreditation and our university’s requirements for graduation, we haveimplemented a sophomore-level course on problem solving and experimental design. This coursereinforces problem-solving strategies from material and energy balances and requires students
- 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
than beingconfined to the class period. After one week, however, the students were instructed to come to aconsensus and the review discussion was closed.There were three ChemProV/OSBLE assignments during the semester. The first of theseinvolved a material balance problem with no recycle and no energy balance. The secondinvolved a material balance problem with recycle but no energy balance. The final probleminvolved both material and energy balances for a system involving a recycle stream. Each timeone-third of the initial student submissions were randomly selected for review, making sure thatno student had more than one of their problem solutions reviewed. The identity of the studentsubmitting the solution, as well as all members of each
- Conference Session
- Improving Introductory Experiences in Chemical Engineering
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Kevin D. Dahm, Rowan University; Stephanie Farrell, Rowan University
- Tagged Divisions
- Chemical Engineering
Reflective Journal Writing”, Journal of Engineering Education, October 2001, 661-667. vii Korgel, B., “Nurturing Faculty-Student Dialogue, Deep Learning and Creativity through Journal WritingExercises,” Journal of Engineering Education, Jan. 2002, 143-146. viii Sharp, J., B. Olds, R. Miller and M. Dyrud, “Four Effective Writing Strategies for Engineering Classes”,Journal of Engineering Education, January 1999, 53-57. ix L.G. Bullard and R.M. Felder, "A Student-Centered Approach to Teaching Material and Energy Balances: 1.Course Design" Chemical Engineering Education, 2007, 93-100. x L.G. Bullard and R.M. Felder, "A Student-Centered Approach to Teaching Material and Energy Balances: 2.Course Delivery
- Conference Session
- NSF Grantees’ Poster Session
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Milo Koretsky, Oregon State University; John L. Falconer, University of Colorado Boulder; David L. Silverstein P.E., University of Kentucky; Bill Jay Brooks, Oregon State University; Debra M. Gilbuena, Oregon State University; Christina Smith, Oregon State University
- Tagged Topics
- NSF Grantees Poster Session
- Tagged Divisions
- Division Experimentation & Lab-Oriented Studies
Core Chemical Engineering Curriculum – Year 3Overview and ObjectivesWe report on the progress of the third year of a CCLI Type 3 project. The goal of this project isto create a community of learning within the discipline of chemical engineering (ChE) focusedon concept-based instruction. The project plan is to develop and promote the use of a cyber-enabled infrastructure for conceptual questions, the AIChE Concept Warehouse, whichultimately could be used throughout the core ChE curriculum (Material and Energy Balances,Thermodynamics, Transport Phenomena, Kinetics and Reactor Design, and Materials Science).Conceptual questions, both as Concept Inventories and ConcepTests, will be available throughan interactive website maintained through the
- Conference Session
- Curriculum Development and Assessment in Chemical Engineering
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Margot A. Vigeant, Bucknell University; David L. Silverstein P.E., University of Kentucky
- Tagged Divisions
- Chemical Engineering
Teaching of Undergraduate Chemical Engineering Electives.” AiChE Annual Meeting. San Francisco, CA1989.Silverstein, David, Lisa Bullard et al. “How We Teach: Capstone Design.” American Association for Engineering Education. Atlanta, GA2013.Silverstein, David, and M. Vigeant. “Results of the 2010 Survey on Teaching Chemical Reaction Engineering.” Chemical Engineering Education 46.1 (2012): 31-40.Silverstein, David L. “How We Teach: Material and Energy Balances.” American Association for Engineering Education. 2012. Page 24.1050.11
- Conference Session
- Virtual and Online Learning Tools in Chemical Engineering Education
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Jason M. Keith, Mississippi State University; Liz Rayfield, Dave C. Swalm School of Chemical Engineering, Mississippi State University; Niraj Kashinath Palsule, Mississippi State University
- Tagged Divisions
- Chemical Engineering
samplemodules for better understanding.There are existing web-based compendiums of modules online. Bio-related modules have beendeveloped for the material and energy balance course at the bioengineering educational materialsbank6: (http://www.bioemb.net). There are also materials related online modules exist at thematerials digital library pathway7: (http://matdl.org), and there is a large amount of content forall engineering courses and topics which can be found at the Massachusetts Institute ofTechnology open courseware site8 (http://ocw.mit.edu) and the Multimedia Educational Resourcefor Learning and Online Teaching site9 (http://www.merlot.org). There is also a compendium ofhydrogen energy10 (http://www.che.msstate.edu/pdfs/h2ed/) and alternative
- 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
beenoverwhelmingly positive. In three courses (chemical engineering material and energy balances,mechanical engineering thermodynamics, and a general engineering computing class), 95% ofstudents indicated that they felt more confident about the material after watching a screencast.Two comments from end-of-semester student surveys provide an indication of how students likescreencasts: "They are a useful way to gain more guided practice, in addition to what we learn in class. The major benefit for me is that they are available 24/7, cover a range of topics in all of our classes, and present problems that we haven't seen before." "Instead of passively reading an example problem on my own, screencasts are not only another valuable
- Conference Session
- Multidisciplinary Courses and Projects
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- M. Brian Thomas, Trine University; Andrea Mitofsky, Trine University; Vukica M. Jovanovic, Old Dominion University; John Eiler
- Tagged Divisions
- Multidisciplinary Engineering
; Communication in Higher Education, 2012. 10: p. 33-50.8. M. W. Prairie, G. Wight, P. Kjeer, A Multidisciplinary Hydroelectric Generation Design Project for the Freshman Engineering Experience, Proc. 120th ASEE Ann. Conf., Atlanta, GA, June 23-26, 2013.9. L. Tan, J. Jiang, Teaching System Modeling and Feedback Control Systems: A Multidisciplinary Course in Mechanical Engineering and Electrical Engineering, Proc. 120th ASEE Ann. Conf., Atlanta, GA, June 23-26, 2013.10. D. Yuan, Teaching Engineering Design Concepts through a Multidisciplinary Control Project, Proc. 120th ASEE Ann. Conf., Atlanta, GA, June 23-26, 2013.11. M. A. Collura, W. D. Harding, Material and Energy Balances Taught in a Multidisciplinary Course, Proc
- 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
Warehouse (CW) is a database-driven website developed to lower theactivation barrier for faculty to use conceptual instruction and assessment so that many morechemical engineering faculty incorporate concept-based learning into their classes. Concept-based instruction (e.g., ConcepTests, concept inventories) often depends on high quality conceptquestions. These questions can be time consuming and difficult to construct, posing one of thebiggest barriers keeping faculty from implementing this type of pedagogy.7, 8This tool can be used throughout the core ChE curriculum (Material and Energy Balances,Thermodynamics, Transport Phenomena, Kinetics and Reactor Design, and Materials Science).Currently the AIChE Concept Warehouse has approximately 2000
- 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
. Cooper moved to the Raleigh, NC area to serve as a research chemical engineer for RTI International, focusing on the development of novel technologies for the energy sector. Dr. Cooper joined the Department of Chemical and Biomolecular Engineering at North Carolina State University in 2011, where he currently teaches the Unit Operations I and II labora- tory sequence, Material and Energy Balances, Transport Phenomena and Mathematical / Computational Methods. He is the recipient of the 2014 NCSU Outstanding Teacher Award and the 2014 ASEE South- eastern Section Outstanding New Teacher Award, as well as the 2013 Joseph J. Martin Award from the ASEE Chemical Engineering Division; he also currently serves as the ASEE ChE
- Conference Session
- Student Learning, Problem Solving, and Critical Thinking 1
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Claudia Elena Vergara, Michigan State University; Mark Urban-Lurain, Michigan State University; Jon Sticklen, Michigan State University; Abdol-Hossein Esfahanian, Michigan State University; Hannah McQuade, The Center for Engineering Education Research; Andrew League, Michigan State University; Chris John Bush, The Center for Engineering Education Research; Michael Cavanaugh, Michigan State University, Center for Engineering Education Research
- Tagged Divisions
- Educational Research and Methods
. Sophomore Steady and unsteady state material and energy balances. 110(CHE) Modeling Fluxes and rate processes. Shell balances. Balanceand Analysis of equations for mass, heat, and momentum transport.Transport Analogies among mass, heat, and momentum transport.Phenomena Analytical and numerical solutions. Application of(CHE 210) computational methods to problem solutions.Mass Transfer Junior Diffusion. Mass transfer coefficients. Design of 110and Separations countercurrent separation systems, both stage wise and(CHE 312) continuous. Distillation, absorption, extraction
- Conference Session
- Best of Computers in Education Division
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Mark Urban-Lurain, Michigan State University; Melanie M. Cooper, Michigan State University; Kevin C. Haudek, Michigan State University; Jennifer Julia Kaplan, University of Georgia, Department of Statistics; Jennifer K. Knight, University of Colorado, Boulder; Paula P. Lemons, University of Georgia; Carl T. Lira, Michigan State University; John E. Merrill, Michigan State University, Biological Sciences Program; Ross Nehm, Stony Brook University; Luanna B. Prevost, University of South Florida; Michelle Kathleen Smith; Maryanne Sydlik, Western Michigan University
- Tagged Divisions
- Computers in Education
, chemical kinetics, and material and energy balances. He has been recognized with the Amoco Excellence in Teaching Award, and multiple presentations of the MSU Engineering College Withrow Teaching Excellence Award. He is co-author of a widely-used textbook, Introductory Chemical Engineering Thermodynamics. He has active research in phase equilib- ria, kinetics, alternative fuels, and reactive distillation. He has MS and PHD degrees from University of Illinois, Champaign-Urbana, and a BS from Kansas State University.Dr. John E Merrill, Michigan State University, Biological Sciences ProgramProf. Ross Nehm, Stony Brook University Ross Nehm is Associate Professor in the Department of Ecology & Evolution, and Core Faculty in