Conference Session

Multidisciplinary Engineering Potpourri

Collection

2012 ASEE Annual Conference & Exposition

Authors

Irina Nicoleta Ciobanescu Husanu, Drexel University; Michael G. Mauk, Drexel University; Patrick lee Kirby, Drexel University; Bailu Xu

Tagged Divisions

Multidisciplinary Engineering

c American Society for Engineering Education, 2012 Introducing “Lab-on-a-Chip” Type Experimental Activities in “Thermodynamics and Heat Transfer Laboratory” CourseAbstractIn recent years, increasing industry demands for skilled graduates from universities has requireda substantial refocus on engineering technology programs across the nation towards improving oreven changing their traditional ways of imparting knowledge to students. One aim is toincorporate as much hands-on activities as possible in their curricula without having to curtail thetheoretical foundation and yet to stay within the total number of existing credit hours. However,adding more laboratory activities implies a financial burden on the department and

Conference Session

Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Yogendra M. Panta, Youngstown State University; Michael T. Butcher, Youngstown State University

Tagged Divisions

Multidisciplinary Engineering

), microfluidics/lab-on-chip, and energy research.Dr. Michael T. Butcher, Youngstown State University Michael Butcher is an Assistant Professor in biological sciences in the College of STEM at Youngstown State University. Butcher received his Ph.D. in zoology with a specialization in muscle biomechanics from the University of Calgary in Alberta, Canada. Butcher runs and active laboratory at YSU where he focuses on thee areas of comparative biomechanical research: evolution of bone loading and integrated hindlimb muscle-bone function, muscle architectural properties and function is digging lineages, and myosin heavy chain isoform expression and caudal muscle function in the prehensile tails of didelphid marsupials

Conference Session

Energy, the Environment, and Nano Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Dhananjay Kumar, North Carolina A&T State University; Devdas M. Pai, North Carolina A&T State University; Kwadwo Mensah-Darkwa; Robin Guill Liles, North Carolina A&T State University; Mainul Kader Faruque, North Carolina A&T State University; Courtney Lambeth, North Carolina A&T State University

Tagged Divisions

Multidisciplinary Engineering

laboratories. These efforts have been primarily supported by two successive NSF NanoUndergraduate Education (NUE) projects. Our first activity for enhancing nanoscience andnanoengineering education was to introduce simple concepts of nanoscience and technology intoexisting required undergraduate engineering courses. These modules covered the core conceptsof nanomaterials and unique phenomena at the nanoscale. Introducing the concepts ofnanoscience and engineering at this early stage of undergraduate education was found topositively impact student interest in registering for a technical elective nanotechnology coursethat we developed as our second initiative. An interdisciplinary 3-credit nanotechnology course(Nanotechnology I) with a significant hands

Conference Session

Multidisciplinary Engineering Potpourri

Collection

2012 ASEE Annual Conference & Exposition

Authors

Wayne Weaver, Michigan Technological University; Jeremy John Worm P.E., Michigan Technological University; Jeffrey D. Naber, Michigan Technological University; Leonard J. Bohmann, Michigan Technological University; John E. Beard, Michigan Technological University; Carl L. Anderson, Michigan Technological University; Bo Chen, Michigan Technological University; Jason M. Keith, Mississippi State University

Tagged Divisions

Multidisciplinary Engineering

distributed and renewable energy technology research. Weaver is a registered Professional Engineer in the state of Illinois. He is currently an Assistant Professor in the Department of Electrical Engineering at Michigan Technological University.Jeremy John Worm P.E., Michigan Technological University Jeremy John Worm is the Director of the Mobile Sustainable Transportation Laboratory at Michigan Tech and a Research Engineer in the Advanced Power Systems Research Center. Worm teaches several courses pertaining to hybrid vehicles, and IC engines. In addition to teaching, his research interests include internal combustion engines, alternative fuels, and vehicle hybridization. Prior to coming to Michigan Tech, Worm was a Lead

Conference Session

Capstone and International Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Scott Danielson, Arizona State University, Polytechnic; Chell A. Roberts, Arizona State University, Polytechnic

Tagged Divisions

Multidisciplinary Engineering

engineering education practices and then argued in support ofan educational model where components of engineering science, laboratory work, and designactivities interact with one another in an approximation of professional practice. Happily, thereare examples of engineering education programs that have created or modified their programobjectives and curricula to meet such curricular calls5, 6, 7. More recently, the ASME Vision2030 Task Force has joined others in endorsing the utilization of a design spine across thecurriculum. Ideally, this design spine is multidisciplinary in nature, providing the students withmultiple experiences working with people from other disciplines as they progress through theircurriculum culminating in a yearlong senior

Conference Session

Energy, the Environment, and Nano Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Clifford R. Mirman, Northern Illinois University; Lesley Rigg, Northern Illinois University; Melissa Lenczewski, Northern Illinois University

Tagged Divisions

Multidisciplinary Engineering

program includes new areas of green manufacturing andmaterials used today and in the future, including the operation and manufacture of solar cells, theproduction of wind, thermal, and hydro-electric power. In addition, the curriculum will introducestudents to basic and advanced topics in HVAC, bio-based fuels and alternative energy, as wellas the ability of our graduates to examine the carbon footprint and develop solutions in thereduction of energy consumption.The following listings detail the undergraduate programs that were developed as part of the ESEInstitute.1). Major in Environmental Studies (B.S. degree) o CHEM 210 – General Chemistry I and CHEM 212 – General Chemistry Laboratory I o CHEM 211 – General

Conference Session

Energy, the Environment, and Nano Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Harold T. Evensen, University of Wisconsin, Platteville; Osama M. Jadaan, University of Mount Union; Tsunghsueh Wu, University of Wisconsin, Platteville; Yan Wu, University of Wisconsin, Platteville; Esther N. Ofulue

Tagged Divisions

Multidisciplinary Engineering

defined in its mission statement. With an enrollment of over 1750 engineeringstudents, the engineering college is one of the largest undergraduate-only engineering programsin the United States.The engineering college has a long-standing reputation for excellent teaching, small class sizes,and extensive faculty-student contact and laboratory experiences. The vision of our College ofEngineering, Mathematics, and Science is to be “recognized as a leader in undergraduate …education in engineering, mathematics and science.” The College is further committed to“encourag(ing) departments to investigate opportunities for new programs which meet the needsof a changing society.”With this in mind, the fields of microsystems and nanotechnology were seen as

Conference Session

Capstone and International Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Bobby G. Crawford, U.S. Military Academy; Stephanie Farrell, Rowan University; Elizabeth Bristow P.E., U.S. Military Academy

Tagged Divisions

Multidisciplinary Engineering

Professional Engineer and is a rated pilot in both rotary and fixed-wing aircraft.Dr. Stephanie Farrell, Rowan University Stephanie Farrell is an Associate Professor in chemical engineering at Rowan University. Prior to joining Rowan in 1998, she was an Assistant Professor in chemical engineering and Adjunct professor in biomed- ical engineering at Louisiana Tech University. She received her bachelor’s, M.S., and Ph.D. degrees in chemical engineering from the University of Pennsylvania, Stevens Institute of Technology, and New Jer- sey Institute of Technology, respectively. Farrell’s educational interests are in laboratory development and experiential learning, particularly in the areas of biomedical and sustainable

Conference Session

Energy, the Environment, and Nano Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Julanne K. McCulley, Weber State University; Dustin Scott Birch, Weber State University; Megumi Usui Leatherbury, Weber State University; Kelly A. Harward, Weber State University

Tagged Divisions

Multidisciplinary Engineering

this multidisciplinary engineering project along withcourse goals and capstone project documentation will be documented and disseminated in thefinal paper March 2012. Page 25.959.3OverviewThe College of Applied Science and Technology (COAST) is eagerly updating curriculum toinclude instruction on the various forms of alternative energy. We engage our engineeringtechnology students in active learning through applied laboratory experimentation. But, thedevelopment process of applicable laboratory experiments has proven to be costly to the collegewith expensive equipment and duplicated efforts from the various engineering technologyprograms. To

Conference Session

Assessment and Impact

Collection

2012 ASEE Annual Conference & Exposition

Authors

Robert O. Grondin, Arizona State University, Polytechnic

Tagged Divisions

Multidisciplinary Engineering

describedengineering degrees as possessing “a remarkably homogenous curriculum and pedagogy”. Theydescribe this curriculum as a building block curriculum, where the four main building blocks areanalysis, laboratory, ethics and design. The first order of business in these degrees is to establishdisciplinary expertise, to deliver technical knowledge to the student. Sheppard et al. note that theportion of the degree that is most clearly related to building broad understanding, the generaleducation requirements, is viewed by engineering faculty as a hurdle faced in the delivery oftechnical knowledge. It is interesting to note that electives do not appear in Sheppard et al.’sdiscussion. Indeed, the discipline specific engineering degree is often designed to be

Conference Session

Capstone and International Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Rob O. Hovsapian, Florida State University; Chiang Shih, Florida A&M University/Florida State University; Juan Ordonez, Florida A&M University/Florida State University; Jose Vargas, Universidade Federal de Parana; Necesio Gomes Costa, Universidade Federal de Itajubá

Tagged Divisions

Multidisciplinary Engineering

note are those organizations that have repeatedlysponsored our project: Harris, Air Force Research Laboratory-Munitions Directorate (EglinAFB), Cummins, Keuka Wind, Center for Advanced Power Systems, and Danfoss-Turbocor.Their involvement has been the key to the continued success of our program.Also would like to thanks the three international universities, the chair of all three engineeringdepartments at our university, for their vision and leadership which is also a key to making theinternational and the multidisciplinary projects a reality.References1. Globalization of Science and Engineering Research, Science and Engineering Indicators 2010, the National Science Board.2. R. Hovsapian, C. Shih, B. Harvey and O. Okoli , An Overview

Conference Session

Energy, the Environment, and Nano Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Lawrence Holloway, University of Kentucky; Yang-Tse Cheng, University of Kentucky; Donald G. Colliver P.E., University of Kentucky; Aaron Cramer, University of Kentucky; Paul A. Dolloff, University of Kentucky; Bob Gregory, University of Kentucky; John George Groppo Jr., University of Kentucky; Yuan Liao, University of Kentucky; Stephen M. Lipka, University of Kentucky; Jim Neathery, Unversity of Kentucky; Johne M. Parker, University of Kentucky; Vijay Singh, University of Kentucky; Joseph Sottile, University of Kentucky; Timothy R.B. Taylor P.E., University of Kentucky; Rodney Andrews, University of Kentucky

Tagged Divisions

Multidisciplinary Engineering

common interest in power and energy education. With the helpof a grant from the US Department of Energy, the institute created undergraduate and graduatecertificate curricula, with new courses and instructional laboratories to support these certificates.In addition, the Institute offers scholarships, professional development courses, and even aninternational summer program.As shown in figure 1, both the graduate and undergraduate certificate programs aremultidisciplinary across engineering, including electrical, mechanical, biosystems, chemical,civil, computer, materials, and mining engineering. All students pursuing one of thesecertificates take a core of common classes to give them a base of knowledge across powergeneration, transmission and