Conference Session

Digital Simulation Tools in Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Yakov Cherner, ATEL, LLC; Ahmed S. Khan, DeVry University, DuPage; Aminul Karim, DeVry University, Downers Grove; Gary J. Mullett, Springfield Technical Community College

Tagged Divisions

Energy Conversion and Conservation

various capacities, most recently retired as the director of engineering and information sciences programs Currently he is serving as the director of academic outreach for the university.Prof. Gary J. Mullett, Springfield Technical Community College Page 22.1586.1 c American Society for Engineering Education, 2011 Use of Adaptable Simulation-based Virtual Laboratories for Teaching Alternative Energy and Energy Conservation in Engineering & Technology ProgramsAbstractThe paper presents multilayered highly interactive simulation-based integrated and adjustablevirtual

Conference Session

Alternative Energy Laboratory Experiences

Collection

2011 ASEE Annual Conference & Exposition

Authors

Oxana S. Pantchenko, University of California, Santa Cruz; Daniel Scott Tate, University of California, Santa Cruz; Daniel O'Leary, University of California, Santa Cruz; Michael S. Isaacson, University of California, Santa Cruz; Ali DUPE Shakouri

Tagged Divisions

Energy Conversion and Conservation

Perfomances in Lecture Portion of Introductory Science Courses?” Journal of College Science Teaching, pp.66-70, Jan/Feb 2008.8. N. Komerath, “A Campus Wide Course on MicroRenewable Energy Systems”, Proc. ASEE National Conference, College Park, TX, 2009.9. R. Pecen and M. Timmerman, “A Hands-On Renewable Energy Based Laboratory for Power Quality Education”, Proc. ASEE Annual Conference and Exposition, 2001.10. C. Bachmann, J. Tang, C. Puffenbarger, and M. Kauffman, “Engineering for Non-Engineering Schools: a Hands-On Educational Curriculum that Addresses the Need for Renewable Energy through Undergraduate Research and Applied Science”, Proc. ASEE Annual Conference and Exposition, 2008.11. D. Budny and D. Torick, “Design of Multi

Conference Session

Alternative Energy Laboratory Experiences

Collection

2011 ASEE Annual Conference & Exposition

Authors

Narayanan M. Komerath, Georgia Institute of Technology

Tagged Divisions

Energy Conversion and Conservation

AC 2011-2661: TESTBEDS CONNECTING SPACE TECHNOLOGY TOTERRESTRIAL RENEWABLE ENERGYNarayanan M. Komerath, Georgia Institute of Technology Professor, Daniel Guggenheim School of Aerospace Engineering Page 22.1423.1 c American Society for Engineering Education, 2011Testbeds Connecting Space Technology To Terrestrial Renewable Energy AbstractTechnologies to exploit resources beyond Earth bear great relevance to the problem ofdeveloping cost-effective solutions for terrestrial micro renewable energy systems. This papersummarizes the approach taken in a course-curriculum-laboratory initiative to

Conference Session

Alternative Energy Laboratory Experiences

Collection

2011 ASEE Annual Conference & Exposition

Authors

Erik A. Mayer, Pittsburg State University; Albert Leroy Powell, Bowling Green State University

Tagged Divisions

Energy Conversion and Conservation

CellAbstractRenewable energy is rapidly becoming a high priority of the United States and other countries asthe search continues for renewable energies to replace our rapidly dwindling supply of fossilfuels that are so heavily relied upon. It is up to the instructors of today to teach the technologistsand engineers of our future how to utilize these renewable energies effectively. This paperdiscusses a low-cost laboratory experiment that will generate the I-V curve of solar cells that canbe used in a curriculum. This experiment uses a low-cost data acquisition system, the LabVIEWprogram, and a current sink circuit made of discrete components. The development of the I-Vcharacteristic curve experiment was partially funded by the Science, Engineering

Conference Session

Investigating Alternative Energy Concepts

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ahmed Rubaai, Howard University; Abdul R. Ofoli, University of Tennessee, Chattanooga

Tagged Divisions

Energy Conversion and Conservation

AC 2011-305: TEACHING POWER ELECTRONICS CONVERTER EX-PERIMENTS THAT INTEGRATES FUZZY LOGIC APPROACHAhmed Rubaai, Howard University Ahmed Rubaai received the M.S.E.E degree from Case Western Reserve University, Cleveland, Ohio, in 1983, and the Dr. Eng. degree from Cleveland State University, Cleveland, Ohio, in 1988. In 1988, he joined Howard University, Washington, D.C., as a faculty member, where he is presently a Professor of Electrical Engineering. He is the Founder and Lead Developer of Motion Control and Drives Laboratory at Howard University (http://www.controllab.howard.edu) and is actively involved in many projects with industry, while engaged in teaching, research and consulting in the area of artificial

Conference Session

Sustainability, Diversity, and STEM in Contemporary Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jeffrey R. Seay, University of Kentucky; Wesley Allen Whipple, University of Kentucky

Tagged Divisions

Energy Conversion and Conservation

linking them with undergraduates workingon a multidisciplinary project to manufacture biodiesel from vegetable oil and convert theglycerol side product to marketable specialty chemical products. The high school seniorsparticipating in the project have worked with undergraduate researchers in chemical andmechanical engineering to operate a small scale biodiesel plant and glycerol conversion reactorat the Paducah Extended Campus of the University of Kentucky College of Engineering. Inaddition, the students operate a quality control laboratory and conduct research experimentsdesigned to improve the biodiesel manufacturing process and optimize the process for utilizingthe glycerol side product. Feedstocks utilized for the biodiesel process include

Conference Session

Curricular Developments in Energy Education II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Abed El Hameed El Madwar, University of Northern Iowa; Kenan Baltaci, University of Northern Iowa; Reg Recayi Pecen, University of Northern Iowa

Tagged Divisions

Energy Conversion and Conservation

AC 2011-2094: INTEGRATION OF HYDROGEN FUEL CELL TECHNOL-OGY TO UNDERGRADUATE EDUCATION IN EET PROGRAMSAbed El Hameed El Madwar, University of Northern Iowa Hameed Madwar is currently a doctorate student in the Industrial Technology Program at the University of Northern Iowa expecting to graduate on May 2011. He has a B.S in Electrical and Computer Engi- neering and a Master degree in Industrial Management. His research interests are in the area of industrial Wireless Sensor Networks (WSN) and Virtual Manufacturing applications. He has more than three years of industrial experience in Manufacturing Technology and four years as a teaching assistant in the areas of Circuits Designs, Renewable Energy, Electrical Power

Conference Session

Project-Based Education in Energy Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Herbert L. Hess, University of Idaho

Tagged Divisions

Energy Conversion and Conservation

system. Specificationand installation of the hydroelectric system, replacing an again incumbent and upgrading a watercollection system. Specification and installation of 4.3kW photovoltaic panels and controller.Interconnection to fossil fuel / biofuel generator. Inverter and energy storage description. Gridinterconnection to load, including all electrical interconnection, construction of an appropriatepower house, and buried cabling to nine-cabin and research laboratory load. This project wasmanaged as a teaching opportunity in accordance with a successful model proposed by Klein et.al. Professor and students presented the keys to the caretaker on 23 July 2010.IntroductionAn integrated electric power system has been designed for and installed in

Conference Session

Curricular Developments in Energy Education I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Robert W. Fletcher, Lawrence Technological University

Tagged Divisions

Energy Conversion and Conservation

, Michigan, and the Master of Science and Ph.D. degrees in Chem- ical Engineering focusing on Electrochemical Engineering, both from the University of Michigan, in Ann Arbor. He teaches a number of alternative energy courses and is leading LTU’s efforts to establish a full energy engineering program that addresses both alternative and renewable energy systems, as well as energy conservation and optimization of traditional energy systems. He also is the Director of the Alternative Energy program at Lawrence Tech. Page 22.100.1 c American Society for Engineering Education, 2011 A

Conference Session

Sustainable Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lakshmi Munukutla, Arizona State University, Polytechnic campus

Tagged Divisions

Energy Conversion and Conservation

The course suitable for integrating the DSSC research results is a required seniorundergraduate course, Solar Cells and Modules for all students majoring in the BS degreeconcentration, Alternative Energy Technologies and as an elective for students from othermajors. During fall semester 2010, the students in the class participated in characterizingthe cells in the laboratory. In the lecture class theoretical discussion of the solar cell I-Vcharacteristics and internal resistance influence on the I-V curve were covered. TheDSSC’s I-V characterization was performed using an equivalent circuit model that isshown in the Figure 5. The series and shunt resistances of the cell are primarycontributors for the internal resistance. The Figure 6

Conference Session

Investigating Alternative Energy Concepts

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ignacio B. Osorno, California State University, Northridge

Tagged Divisions

Energy Conversion and Conservation

AC 2011-212: APPLIED MODELING OF SOLAR CELLSIgnacio B. Osorno, California State University, Northridge I have been teaching and researching Electrical Power Systems for over 25 years, and currently I am a professor of ECE. Published over 20 technical papers and given several presentations related to the ”smart grid” and electric power systems. Consulting with several major corporations has been accomplished in the areas of power electronics and solar energy. I am the lead faculty member of the Electric Power Sys- tems Program. I have established the electrical machines and microprocessor-relay laboratories and power electronics laboratory (in progress). Research interests are solar energy, wind energy, power

Conference Session

Sustainable Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Liping Guo, Northern Illinois University; Mansour Tahernezhadi, Northern Illinois University

Tagged Divisions

Energy Conversion and Conservation

AC 2011-270: EMERGING TECHNOLOGY INSTITUTE - TRAINING MID-DLE AND HIGH SCHOOL TEACHERS IN ALTERNATIVE ENERGYLiping Guo, Northern Illinois University Liping Guo received the B. E. degree in Automatic Control from Beijing Institute of Technology, Beijing, China in 1997, the M. S. and Ph. D. degrees in Electrical & Computer Engineering from Auburn Uni- versity, AL, USA in 2001 and 2006 respectively. She is currently an Assistant Professor in the Electrical Engineering Technology program in the Technology Department at the Northern Illinois University. Her research and teaching interests are mainly in the area of power electronics, renewable energy, embedded systems and automatic control. Dr. Guo is a senior member

Conference Session

Curricular Developments in Energy Education I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Hayrettin B. Karayaka, Texas A&M University, Corpus Christi; Mehrube Mehrubeoglu, Texas A&M University, Corpus Christi; Faruk Yildiz, Sam Houston State University; Korinne Caruso, Texas A&M University, Corpus Christi

Tagged Divisions

Energy Conversion and Conservation

AC 2011-530: A NUCLEAR POWER INDUSTRY CAREER DEVELOP-MENT WORKSHOP FOR HIGH SCHOOL TEACHERS IN A HISPANICSERVING INSTITUTIONHayrettin B Karayaka, Texas A&M University, Corpus Christi Bora Karayaka is a Mechanical Engineering and Engineering Technology faculty, and the power and en- ergy leader in the program. With his over ten years of industry experience, he has extensive experience in project management, and a clear understanding of deadlines, industry requirements, safety and reliability issues, and other aspects in the power and energy fields. He is responsible for teaching the energy and power courses in the department. Dr. Karayaka’s research interests include power generation and renewable energies. He

Conference Session

Curricular Developments in Energy Education I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Andrew L. Gerhart, Lawrence Technological University; Robert W. Fletcher, Lawrence Technological University

Tagged Divisions

Energy Conversion and Conservation

-timefaculty had a background in thermal-fluid science and energy generation (now seven full-timefaculty). In addition, Lawrence Tech had a plethora of qualified and dedicated adjunct facultywho work in the thermal-fluids and energy industry and teach those subjects. Lawrence Techalso has an energy laboratory, a thermal science laboratory, and multiple energy-related “living”laboratories including an active array of solar panels and a LEED Silver-certified building with ageothermal energy system and living green roof.An energy management industry advisory board was created that included energy managers fromsuch companies as Johnson Controls, DTE Energy Services, Detroit Edison, Ford MotorCompany, Daimler Chrysler, and the State of Michigan Energy

Conference Session

ECCD Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Jaime Ramos, University of Texas, Pan American; Leonel Aguilera, University of Texas, Pan American; Elizardo Garcia, Universidad TecMilenio; Sanjeev Kumar, University of Texas, Pan American, Electrical and Computer Engineering; Roman Garcia, IEEE; Jose Sanchez, University of Texas, Pan American

Tagged Divisions

Energy Conversion and Conservation

developing and sharinglearning tools in the Renewable Energy field.The general educational outcomes of the EE program in UTPA are, concisely written: 1- usemath, 2- make experiments, 3- design equipments, 4- do team work, 5- communicate ideas, 6- beresponsible, 7- lifelong learning, and 8- computer literacy. Student's working on theseexperiments can develop further these abilities. Assessment of these outcomes will be done bythe inclusion of pertinent questions in Lab handouts.7- ConclusionGiven the current interest in the integration of solar technologies to the electric utilities, and thelack of teaching materials in this area, UTPA has developed six laboratory experiments on PVsolar technology topics. The experiments use software and hardware

Conference Session

Project-Based Education in Energy Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Radian G. Belu, Drexel University

Tagged Divisions

Energy Conversion and Conservation

Renewable Energy Laboratory, 2010 ASEEEConference & Exposition, June 20 - 23, Louisville, Kentucky (CD Proceedings).24. R.G. Belu and D. Koracin, E-learning Platform for Renewable Energy Sources, 2010 ASEEE Conference &Exposition, June 20 - 23, Louisville, Kentucky (CD Proceedings)25. R.G. Belu, A Project-based Power Electronics Course with an Increased Content of Renewable EnergyApplications, June 14-17, 2009 Annual ASEE Conference and Exposition, Austin, Texas (CD Proceedings).26. R.G. Belu and A.C. Belu, A DecisionSupport Software Application for Design of Hybrid Solar-Wind PowerSystems- as Teaching-Aid, 2007Annual ASEE Conference, and Exposition, Honolulu, Hawaii (CD Proceedings

Conference Session

Curricular Developments in Energy Education I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Margaret B. Bailey, Rochester Institute of Technology

Tagged Divisions

Energy Conversion and Conservation

”, Proc. Amer. Soc. for Eng. Educ. Conf. and Expo., Portland, OR.[11] Felder, R., Brent, R. [2004], “The intellectual development of science and engineering students part 1. Models and challenges”, J. Eng. Educ., Vol. 93, No. 4, pp. 269-277.[12] Felder, R., Brent, R. [2004], “The intellectual development of science and engineering students part 2. Teaching to promote growth”, J. Eng. Educ., Vol. 93, No. 4, pp. 279-291.[13] McKeachie, W., Svinicki, M. [2006], Teaching Tips: Strategies, Research, and Theory for College and University Teachers (12th Edition) Boston: Houghton Mifflin Company.[14] National Training Laboratories, Bethel ME, http://www.ntl.org/, 19 January 2011.[15] Bailey, M. [2007] “Enhancing life-long learning and

Conference Session

Outreach Projects: Promoting Energy Efficiency and Education in General

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ahmed Cherif Megri, University of Wyoming

Tagged Divisions

Energy Conversion and Conservation

AC 2011-2741: INTEGRATION OF ARCHITECTURE AND SUSTAINABLEENGINEERING PRINCIPLES TO ACHIEVE AN ENERGY-EFFICIENTDESIGNAhmed Cherif Megri, University of Wyoming Dr. Ahmed Cherif Megri, associate professor of architectural engineering at the University of Wyoming (UW), teaches several HVAC and energy courses. Dr. Megri is also teaching a course titled ”Compre- hensive Performance of Building Envelope and HVAC Systems” for Summer School at UW, and ”Smoke and Fire Dynamics” during summer session at Concordia University, Canada. His research areas include airflow modeling, zonal modeling, energy modeling, and artificial intelligence modeling using the support vector machine learning approach. Prior to his actual position

Conference Session

Digital Simulation Tools in Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Saeed Sean Monemi, California State Polytechnic University, Pomona

Tagged Divisions

Energy Conversion and Conservation

Modeling, Design, Simulation, and Diagnoses of Electrical Distribution NetworkAbstractThis paper will present an existing course in smart grid technology and promotes problemsolving and innovations. Some topics of interest are: areas in course development, courseorganization and content; laboratory equipment and experiments; and some concepts in smartgrid. After adapting this course, some student’s project has already been developed, implementedand assessed. The course structure and contents covers topics on educating students on how tobuild a smart gird and use advanced computer application software tools for modeling, designsimulation, and diagnoses of electrical distribution network systems. Computer softwareapplications and case

Conference Session

Sustainability, Diversity, and STEM in Contemporary Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lynn Albers, North Carolina State University; Laura Bottomley, North Carolina State University; Amber C. Spolarich, North Carolina State University; Clair Ellen-Ann Wilson, RAMP-UP; Laura Elizabeth Ganson, North Carolina State University

Tagged Divisions

Energy Conversion and Conservation

Bottomley received a B.S. in Electrical Engineering in 1984 and an M.S. in Electrical Engineering in 1985 from Virginia Tech. She received her Ph D. in Electrical and Computer Engineering from North Carolina State University in 1992. Dr. Bottomley worked at AT&T Bell Laboratories as a member of technical staff in Transmission Sys- tems from 1985 to 1987, during which time she worked in ISDN standards, including representing Bell Labs on an ANSI standards committee for physical layer ISDN standards. She received an Exceptional Contribution Award for her work during this time. After receiving her Ph D., Dr. Bottomley worked as a faculty member at Duke University and consulted with a number of companies, such as

Conference Session

Energy Education and Industrial Partnership Needs

Collection

2011 ASEE Annual Conference & Exposition

Authors

Patrick A. Tebbe, Minnesota State University, Mankato

Tagged Divisions

Energy Conversion and Conservation

and the topics it encompasses are constantly changing. Arecent report from the Department of Energy looked at opportunities for energy savings incommercial building HVAC system. The report narrowed the list down to a mere fifty-fiveoptions (Table 4), from which fifteen were eventually selected as most favorable.11 It should benoted that a number of the fifteen items are topics which are not covered in a typicalundergraduate engineering program, and are not listed on either the PE or GA examrequirements. Several of the topics are in fact technologies that are so new that until recentlythey would have only been found in research laboratories or graduate programs (e.g.microchannel heat exchangers).IV. Training Possibilities for the HVAC

Conference Session

Outreach Projects: Promoting Energy Efficiency and Education in General

Collection

2011 ASEE Annual Conference & Exposition

Authors

Ashley Banaszek, Missouri University of Science & Technology; Richard H Hall, Missouri University of Science & Technology; Mehdi Ferdowsi, Missouri University of Science & Technology

Tagged Divisions

Energy Conversion and Conservation

preference for visual learning over verbal learning [3, 4]. Charts,graphs, videos, and other graphics work much better for engineering students than text-based orlecture-based aids. Often students favor active learning techniques. This is especially true forsenior students, who are more likely to be interested in the hands-on applications of the material[4]. Active learning techniques may include activities like laboratory work, working in groups,and playing with ideas [1, 2]. Unfortunately, most classroom environments are passive settingswith students involved mostly in listening—slightly favoring reflective learners, but not stronglyhelping either style [2]. Global learning is also preferred in engineering students [4].Interdisciplinary thinking

Conference Session

Outreach Projects: Promoting Energy Efficiency and Education in General

Collection

2011 ASEE Annual Conference & Exposition

Authors

Shiyoung Lee, Pennsylvania State University, Berks Campus

Tagged Divisions

Energy Conversion and Conservation

systems. Where appropriate, these exercises should involve team-based work among students. Effectiveness and practicality of designs should be key components of the evaluation of students’ work.If design projects are used, students should be required to develop, follow, and periodicallyprogress report on their design developments. Evaluation should consider the quality of thepresentations and the professionalism demonstrated by the students.The proposed IPFC-IMD system, which is implemented mainly with discrete components,provides various teaching components to enhance EMET 325 Electric Drives course. It will beuseful for the practical dc and ac motor drive systems sections. Possible teaching topics and theirbrief explanations are listed