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

. Page 22.1164.1 c American Society for Engineering Education, 2011 Practical Issues Encountered in Building an Integrated Photovoltaic – Hydro -Biofuel Electrical Power System in a Remote Location as a Student ProjectAbstractDescription and specifications for a completed photovoltaic – hydroelectric – biofuel electricalpower system installed at the Taylor Wilderness Research Station (TWRS) in central Idaho.Students performed this successful project entirely, from writing the NSF funding proposal todesigning and installing the equipment. It is currently operating as specified, providing power toTWRS, a remote site 60 km from the nearest neighboring electrical power

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

design courses in ourET program. There is a well-documented demand and need in offering program study, coursesand training in the areas of renewable energy21-23. Future engineers must be taught to be creative,flexible and imaginative. There should be meticulous attention given to team work and on thechallenges of sustainable development, including cultural, economic, environment and socialimperatives. Future engineering curriculum should be built around developing and increasingskills and technical knowledge. The topic of alternative energy is not only relevant to amultitude of issues today, it is also an effective vehicle for developing instruction that appliesacross a variety of content disciplines and academic standards. Since many of the

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

Universities. Page 22.918.1 c American Society for Engineering Education, 2011 Integration of architecture and sustainable engineering principles to achieve an energy-efficient design Ahmed Cherif Megri Associate Professor, amegri@uwyo.edu University of Wyoming Civil and Architectural Engineering Department Laramie, WY, USAThe design of commercial office buildings is a complex process, in which variousdesigners from different perspectives involving the

Conference Session

Digital Simulation Tools in Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Laura J. Genik, Michigan State University; Craig W. Somerton, Michigan State University

Tagged Divisions

Energy Conversion and Conservation

., “Incorporating MatLabin the mechanical engineering courses at Alabama A&M university”, Proceedings ASEE Annual Conference andExposition, 2002.10. Shih, Chiang and Alvi, Farrukh, “An Integrated Thermal and Fluids Curriculum”, Proceedings ASEE AnnualConference and Exposition, 2000.AppendixA1 Course Learning Objectives1. Basic Concepts a. Students can identify control volumes, closed systems, and transient systems b. Students can apply the state principle c. Students can work in different unit sets d. Students can identify intensive and extensive properties e. Students understand the concept of equilibrium f. Students can apply conservation of mass2. Property Evaluation a. Students can recognize

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

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

range of 5 Volts, which are suitablyhandled by the data acquisition system.Students will design voltage divider circuits and make experiments for their calibration, as wellas Hall effect current sensors.5- Integration to curriculumThe Energy studies option at the EE Dept in UTPA is formed with the following set of courses:a. ELEE 4333 Renewable Energyb. ELEE 4372 Electric Machinery & Power Systems Fundamentals.c. ELEE 3371 Electric Power Systems Design & Applications (Buildings)d. ELEE 3370 Power ElectronicsThe equipment and systems developed in this project will enable UTPA to support this string ofcourses, and make a better course curriculum for ELEE 3370 Power Electronics. The DC powersource from the ENGR PV array will

Conference Session

Project-Based Education in Energy Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Hassan Moghbelli, Ph.D., Texas A&M University, Department of Mathematics; Haitham Abu_Rub, Texas A&M University at Qatar, ECE Department

Tagged Divisions

Energy Conversion and Conservation

]. Page 22.44.2Wind energy can be used in Qatar by hybridizing it with another abundant energy source like ASEE Annual Conference and Exposition, Vancouver, Canada, June 2011solar energy. By integrating it with proper electric energy storage, a reliable and efficientrenewable electric power plant can be obtained.This paper introduces an effective solution by integrating a renewable energy source (i.e. solarenergy) with wind power plant.Other objectives of this paper are using renewable energy sources as reliable power sources withstand alone and grid connected capability which can improve distributed electric power quality.The green hybrid power plant (GHPP) is significant because of the following:- Using renewable energy sources

Conference Session

Project-Based Education in Energy Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Sanjay Jayaram, Saint Louis University, Parks College of Engineering; Sridhar S. Condoor, Saint Louis University, Parks College of Engineering

Tagged Divisions

Energy Conversion and Conservation

the development of clean and renewable energy to the forefront of futuretechnological endeavors. This has ignited considerable interests in education and research onrenewable energy methods and renewable energy systems projects. As such, there is anunprecedented priority for educating and training a technologically solid workforce with anenergy focus. Senior design examples are discussed to show our experiences of incorporatingRenewable Energy projects in the senior design course. Introduction of renewable energyprojects into our curriculum has impacted students, faculty, and university community positivelyand promoted feasibility and adoption of more eco-friendly energy technologies.IntroductionEnergy literacy and renewable energy programs

Conference Session

Sustainable Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Faruk Yildiz, Sam Houston State University; Keith L. Coogler, Sam Houston State University; Ayhan Zora, Deere & Company

Tagged Divisions

Energy Conversion and Conservation

, mechanical integration and modifications, electricalintegration and wiring, design, measurements and instrumentation, welding and aluminumcasting etc. There is currently a hiring process to improve and extend the project due tograduation of senior students. Due to budget considerations students involved in this projectworked either voluntary or enrolling an independent study course. Student feedbacks are verypositive. Especially graduating students commented that why they were not given such extensiveprojects for especially student cannot get internship opportunity. It is planned to offer extensiveprojects on the campus for students who are willing to do internship on campus in near future.Students involved in the project experienced structured

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

]. Page 22.1351.2The team based presentation project evolved within advanced thermodynamic courses as a wayto introduce upper-level engineering students to an engineering outreach opportunity while alsostrengthening communication skills and deepening engineering knowledge. The need for moreworkers with an engineering background in the coming years is clear [6] and it is often necessaryfor students to track into appropriate math and science classes as early as middle school if theyare to be ready for a college engineering curriculum. RIT already has an active women inengineering (WE@RIT) outreach program [7] with a successful infrastructure in place, so it is anatural extension of work already being done within the college to start a program to

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

AC 2011-1596: DEVELOPMENT AND IMPLEMENTATION OF A CER-TIFICATE IN ENERGY AND ENVIRONMENTAL MANAGEMENTAndrew L. Gerhart, Lawrence Technological University Andrew Gerhart, Ph.D. is an Associate Professor of Mechanical Engineering at Lawrence Technological University. He is actively involved in ASEE, the American Society of Mechanical Engineers, and the Engineering Society of Detroit. He serves as Faculty Advisor for the American Institute of Aeronautics and Astronautics Student Chapter at LTU, chair for the LTU Leadership Curriculum Committee, director of the LTU Thermal Science Laboratory, coordinator of the Certificate in Energy & Environmental Man- agement and Certificate/Minor in Aeronautical Engineering, and

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

seven year review and assessment of Lawrence Technological University’s Alternative Energy Engineering Program initially funded through grants from the State of MichiganAbstractLawrence Technological University applied for and received two funding grants from the Stateof Michigan in 2003 and 2004 to develop curriculum and to establish courses in the field ofAlternative Energy Engineering. Lawrence Tech in 2003 was one of five schools in Michigan toreceive these initial funds. This paper reviews the decision making process originally used toestablish the curriculum, the engineering courses developed through these grants, theestablishment of an Alternative Energy Engineering laboratory, and the subsequent evolution ofthe

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

School Teachers in a Hispanic Serving InstitutionAbstractIn recent years, Texas A&M University Corpus Christi entered into a partnership with theNuclear Power Institute or NPI to attract students into careers in nuclear power and science. Thepartnership naturally involved both student recruitment and curriculum development efforts. As apart of this recruitment effort, a summer workshop was designed and implemented to train,prepare for research, and educate local area high school teachers for the careers in engineering,engineering technology and the nuclear power industry. First, an outreach effort to local areapublic, private high and junior high schools was organized to advertise and promote theworkshop. After a considerable

Conference Session

Curricular Developments in Energy Education II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Joyce M van de Vegte, Camosun College, Victoria, Canada; Alan P. Duncan, Camosun College, Victoria, Canada

Tagged Divisions

Energy Conversion and Conservation

faculty used theirallocated development time to develop labs and curriculum for these program changes. At ourinstitution, we get one quarter of release time every two years so no additional funding wasrequired. About six months of curriculum development time were required to implement theprogram changes, with an estimated cost of approximately $50,000. Specialized lab equipmentand supplies for the renewable energy course (detailed in Table 4) cost $11,100. Thus, the totalcost for the program revision was about $61,100 of which only $11,100 had to be funded.Table 4 Lab suppliesItem Cost per unit $ Number of units Total cost $solar panel 5 15 75light

Conference Session

Sustainability, Diversity, and STEM in Contemporary Energy Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

John M. Robertson, Arizona State University, Polytechnic campus; Slobodan Petrovic, Oregon Institute of Technology

Tagged Divisions

Energy Conversion and Conservation

are well established but for a commodity like energy, widespreadadoption depends on delivering lower costs and matching loads both in time and location.These are extremely difficult performance goals for but the rewards for success are highwith a global market waiting eagerly.The rationale for making space to cover the path to technology maturity in an alreadyovercrowded curriculum is that it defines many future engineering jobs. The solar cells,batteries and fuel cells can be manufactured today but can they beat the internationalcompetition to deliver the tough commodity performance metrics? High-level roadmapsfor alternative energies have been formulated 1 but the goals remain stubbornly distant 2.That emphasizes the need to recruit and

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

Advisor for ASHRAE, as manager of a series of continuingeducation classes on energy in buildings, and as an instructor of an undergraduate HVAC course.Combining this experience with literature research and several personal interviews with industrypersonnel a list of educational needs for future HVAC engineers will be created. This will thenbe discussed with regard to what is achievable in the engineering curriculum and what otheroptions for attainment (workshops, continuing education, on the job experience, etc.) arepossible. The combination of options that are being pursued by Minnesota State University,Mankato will then be described.II. Putting it into PerspectiveWhile fuel efficiency in automobiles is often in the news, it has only been

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

tested in the large return section of the John Harper wind tunnel at Georgia Institute of Technology. The set up is shown in Figure 2. This experiment yielded data on the behavior of highly flexible blades, but was otherwise a failure in power generation. An improved model with much more rigid blades is being built, with the blade construction effort pictured in Figure 3. The ultimate aim is to integrate such machines with other renewable generators, sharing the same footprint and power control systems. In 2006-07, progress was rapid, with one Master’s degree candidate working on it at full speed (he was later recruited by a wind energy company

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

AC 2011-1842: A LOW-COST LABORATORY EXPERIMENT TO GEN-ERATE THE I-V CHARACTERISTIC CURVES OF A SOLAR CELLErik A. Mayer, Pittsburg State University Erik Mayer received his Ph.D. in Engineering Science at the University of Toledo. His areas of focus are power electronics and embedded systems. He has a strong interest in renewable energy; he worked with the Electric Vehicle Institute and designed a course in renewable energy during his time at Bowling Green State University. In addition, he worked at Visteon designing components for hybrid vehicles. He became an Associate Professor at Pittsburg State University in 2010.Albert Leroy Powell, Bowling Green State University Albert Powell is a Sophomore Undergraduate

Conference Session

Energy Education and Industrial Partnership Needs

Collection

2011 ASEE Annual Conference & Exposition

Authors

Edward Russell Forringer, LeTourneau University; Matthew G. Green, LeTourneau University; Jesse J. French, LeTourneau University; Paul R. Leiffer, LeTourneau University

Tagged Divisions

Energy Conversion and Conservation

. Wood, R. B. Stone and D. A. McAdams, 2002, "Integrating Service-Oriented Design Projects in the Engineering Curriculum," ASEE Annual Conference, Montreal, Quebec. American Society for Engineering Education.[3] Green, M.G., Wood, K.L., VanderLeest, S.H., Duda, F.T., Erikson, C., Van Gaalen, N., “Service-Learning Approaches to International Humanitarian Design Projects: A Model Based on Experiences of Faith-Based Institutions,” Proceedings of the ASEE Annual Conference, Salt Lake City, UT, June 2004.[4] Accrediting Board for Engineering and Technology, Criteria for Accrediting Engineering Programs, 2006-2007 Accreditation Cycle.[5] NSPE Code of Ethics, http://www.nspe.org/Ethics/CodeofEthics/Creed/creed.html [Accessed Mar