Conference Session

Electrical Energy Courses, Labs, and Projects II

Collection

2013 ASEE Annual Conference & Exposition

Authors

Jennifer Ferris, Portland State University; Robert B Bass, Portland State University

Tagged Divisions

Energy Conversion and Conservation

Paper ID #5872A Power Systems Protection Teaching Laboratory for Undergraduate andGraduate Power Engineering EducationJennifer Ferris, Portland State UniversityDr. Robert B Bass, Portland State University Dr. Robert Bass is an associate professor of power engineering in the Department of Electrical and Computer Engineering at Portland State University. His research interests pertain to electrical power sys- tems. Current and past projects include analyzing AMI data to evaluate the efficacy of utility-sponsored mini-split heat pump installations; evaluation of power quality at PSU’s ”Electric Avenue” EV Charging Stations

Conference Session

Training and Workforce Needs in the Energy Sector

Collection

2013 ASEE Annual Conference & Exposition

Authors

Robert Gilbert, Sinclair Community College

Tagged Divisions

Energy Conversion and Conservation

system and an additional 3 kWwind turbine. The commercial and industrial energy efficiency courses are supported bypumps, motors, variable frequency drives, coils with two way and three way valves, and datalogging equipment. 1 kW Wind TurbineThe Center for Energy Education Laboratory is a vital component in support of therenewable energy and energy efficiency courses. Laboratory projects are used todemonstrate energy efficient designs and retrofitting measures to existing building envelopesand mechanical systems. Equipment is used to teach assessment procedures for residential,commercial and industrial facilities. Such a laboratory is a necessary component inrenewable energy and energy efficiency educational

Conference Session

Design Based Energy Education

Collection

2013 ASEE Annual Conference & Exposition

Authors

Alamgir A. Choudhury, Western Michigan University; Jorge Rodriguez PhD, MBA, Western Michigan University

Tagged Divisions

Energy Conversion and Conservation

Paper ID #7749A laboratory for energy efficient product designDr. Alamgir A. Choudhury, Western Michigan University Alamgir A. Choudhury is an Associate Professor of Industrial and Manufacturing Engineering at Western Michigan University, Kalamazoo, Michigan. His MS and PhD are in mechanical engineering from NMSU (Las Cruces) and BS in mechanical engineering from BUET (Dhaka). His interest includes computer applications in curriculum, MCAE, mechanics, instrumentation & control, and fluid power. He is also a Registered Professional Engineer in the State of Ohio and affiliated with ASME, ASEE, SME and TAP.Jorge Rodriguez

Conference Session

Electrical Energy Courses, Labs, and Projects I

Collection

2013 ASEE Annual Conference & Exposition

Authors

Hirak C Patangia, University of Arkansas, Little Rock

Tagged Divisions

Energy Conversion and Conservation

as coauthors. He was the first recipient of an NSF research initiation grant (now CAREER Award) at UALR. He has a strong grant funding record and in 2011, he received funding from NSF for curriculum development in the area of Photo-voltaic (PV) Solar Energy. The project involves developing exemplary course modules and innova- tive laboratory modules for adaptation at other schools for undergraduate/graduate teaching and research. Recently, he completed three projects for Arkansas Highway and Transportation department related to highway lighting using solar energy. He established a commercial PV system with solar panels on the rooftop of ETAS building for teaching and research with funding from Arkansas Energy

Conference Session

Electrical Energy Courses, Labs, and Projects II

Collection

2013 ASEE Annual Conference & Exposition

Authors

Herbert L. Hess, University of Idaho, Moscow; Brian Peterson, U.S. Air Force Academy; Susan Elmore, US Air Force Academy ; Al DUPE Mundy, United States Air Force Academy

Tagged Divisions

Energy Conversion and Conservation

concepts and methods and enthusiasm for learning.Equipment DevelopmentA search of relevant literature quickly reinforces the notion that equipment for this training isusually developed in-house. This is true of universities, community colleges, technical institutes,and even on-line training. Much of the equipment is large, highly realistic, and definitely notportable.Universities and community colleges have developed equipment to teach electrical code in arealistic fashion. At the Milwaukee School of Engineering, there is a laboratory with a nicerange of electrical panels for teaching distribution wiring. The laboratory focuses primarily onthe motor loads. Students get a strong experience in investigating existing installations and inbuilding

Conference Session

New Concepts for Alternative and Renewable Energy Courses

Collection

2013 ASEE Annual Conference & Exposition

Authors

Radian G Belu, Drexel University (Tech.)

Tagged Divisions

Energy Conversion and Conservation

seems maybe the only effective and feasiblesolution. There is a need for new learning tools and practical experiences which can now be metby new teaching methods, such as virtual learning. In recent years due to the Internet advances,and the fast development of computer technologies, E-Learning has been well accepted in manydifferent education areas and at many universities. Computing and communication technologyhave had a significant impact on engineering education, improving online, distance, andcollaborative learning, as well as the use of the virtual and remote experiments, laboratories andsimulations. On the other hand, the renewable energy technology has a great development rateand it is mandatory also for professionals, engineers, and

Conference Session

Topics in Biomass and Gasification Processes

Collection

2013 ASEE Annual Conference & Exposition

Authors

Madhumi Mitra Ph.D, University of Maryland Eastern Shore; Abhijit Nagchaudhuri, University of Maryland, Eastern Shore; Corinne Johnson Rutzke, Corinne Rutzke

Tagged Divisions

Energy Conversion and Conservation

for educators forenhancing instruction in the areas of sustainable bioenergy and bioproducts: In addition totraining STEAM educators on a systems perspective of bio-energy, the program and the institutefocus on developing and providing workbooks and laboratory tool kits for implementingclassroom activities in bioenergy and bioproducts. The workbooks that are developed are alignedwith national and state standards of science, technology, and mathematics and do provide samplelessons in bioenergy and bioproducts for middle and high school students. It is anticipated thatthe bioenergy and bioproducts teaching tools will become self-sustaining following thetermination of the project.3. To leverage other ongoing training activities and training

Conference Session

Design Based Energy Education

Collection

2013 ASEE Annual Conference & Exposition

Authors

Jennifer M Peuker, University of Alaska, Anchorage; Steffen Peuker, University of Alaska Anchorage

Tagged Divisions

Energy Conversion and Conservation

course, with an emphasis on computer programming using MATLAB and communication. Her teaching interests are in the area of thermo-fluids and freshmen engineering. Her current research is focused on the success of freshmen engineering students, and implementing a flipped classroom by using Team-Based Learning in engineering core courses. Jennifer can be reached at jmpeuker@gmail.comDr. Steffen Peuker, University of Alaska Anchorage Dr. Steffen Peuker is an Assistant Professor of Mechanical Engineering and the Director of the Thermal System Design Laboratory at the University of Alaska Anchorage. He is teaching the Thermal System De- sign, Thermal System Design Laboratory, HVAC Systems Optimization and Introduction to

Conference Session

Topics in Energy Management

Collection

2013 ASEE Annual Conference & Exposition

Authors

Jaime Ramos-Salas P.E., University of Texas, Pan American; Emmanuel Benitez, University of Texas, Pan American; Leonel Aguilera, University of Texas, Pan American

Tagged Divisions

Energy Conversion and Conservation

acquisition systemwith energy management is a small step onto having a micro scale smart grid in our laboratory.Another main reason for developing this project is to have laboratories for student teachings,other projects, and master’s theses. We are planning to have up-to-date laboratories andassignments with engineering tasks which are not taught in other courses. One of our laboratoryassignment plans is to educate our undergraduate students in the programming softwareLabVIEW.We feel that LabVIEW is becoming very popular in the engineering field and it is a good idea tohave our students exposed to it.We have developed a laboratory assignment which is a reduced form of our data acquisitionsystem. This lab will introduce the students to instrument

Conference Session

Topics in Biomass and Gasification Processes

Collection

2013 ASEE Annual Conference & Exposition

Authors

Matthew J. Traum, Milwaukee School of Engineering; Kyle Pace; Jeremy R Anderson, EASENET

Tagged Divisions

Energy Conversion and Conservation

Education conferences: 0 papers on bio-products; 2 papers on bio-energy, 6 papers on bio-fuels, 3 papers on bio-mass, 4 papers on bio-processes, and 10 papers onbio-chemicals. [4] Only 25 total papers on bio-renewable topics at ASEE conferences in 10 yearsaccentuates an unrealized opportunity to improve STEM education and best practicesdissemination in this topical area.At the Milwaukee School of Engineering, we capitalized on an opportunity to teach a bio-renewable energy module within an existing required mechanical engineering class.‘Thermodynamics Applications’ is a senior-level hybrid lecture/laboratory course in which twoweeks are set aside for instructors to teach customized energy-focused modules of their ownchoosing and design. To help

Conference Session

Electrical Energy Courses, Labs, and Projects II

Collection

2013 ASEE Annual Conference & Exposition

Authors

Hayrettin Bora Karayaka, Western Carolina University; Robert D. Adams, Western Carolina University

Tagged Divisions

Energy Conversion and Conservation

Paper ID #5871A Project Based Implementation of a Power Systems Course for Electricaland Computer Engineering Technology StudentsDr. Hayrettin Bora Karayaka, Western Carolina University Bora Karayaka is an Electrical Engineering faculty at Kimmel School, Western Carolina University. 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 electric power engineering courses in the department. Dr

Conference Session

New Concepts for Alternative and Renewable Energy Courses

Collection

2013 ASEE Annual Conference & Exposition

Authors

Narayanan M. Komerath, Georgia Institute of Technology; Akshay Milind Pendharkar, Georgia Institute of Technology; Vrishank Raghav, Georgia Institute of Technology

Tagged Divisions

Energy Conversion and Conservation

Paper ID #8129The LowCost Vertical Axis Wind Turbine Project: An exercise in learningacross disciplinesDr. Narayanan M. Komerath, Georgia Institute of Technology This is a student-led paper guided by Professor Komerath. Dr. Komerath is a professor of aerospace engineering at Georgia Institute of Technology, and director of the Micro Renewable Energy Systems Laboratory. He has over 300 publications, over 120 of them peer-reviewed, plus 3 US Patents, and has guided 15 PhDs , 50+ MS and over 160 undergraduate research special problem projects. He is a former Chair of the Aerospace Division.Akshay Milind Pendharkar, Georgia

Conference Session

Design Based Energy Education

Collection

2013 ASEE Annual Conference & Exposition

Authors

Oxana S Pantchenko, University of California at Santa Cruz; Tiffany Wise-West P.E., University of California Santa Cruz; Michael S. Isaacson, University of California, Santa Cruz; Ali Shakouri Shakouri, Purdue University

Tagged Divisions

Energy Conversion and Conservation

 RENEWABLE ENERGY SOURCES COURSEAbstractAt the University of California at Santa Cruz, a quarter long course on renewable energy sources wascomplemented with a real­world team project. The course was designed for engineering andnon­engineering students and did not require any advanced mathematics or physics backgrounds. Thecourse was open to freshmen, sophomore, junior and senior undergraduate students. The courseconsisted of fifteen bi­weekly lectures, eight weekly laboratory sections, a midterm, and a final exam.The lecture material consisted of an introduction to renewable energy sources, energy harvesting, energyconversion, system efficiency, and energy storage solutions. The lectures consisted of instructorpresentations, discussions, and

Conference Session

New Concepts for Alternative and Renewable Energy Courses

Collection

2013 ASEE Annual Conference & Exposition

Authors

Craig J. Hoff, Kettering University; Jennifer Aurandt, Kettering University; Matthew R. O'Toole, Kettering University; Gregory W. Davis, Kettering University; Steven Nartker, Kettering University

Tagged Divisions

Energy Conversion and Conservation

Paper ID #7533Motivating Student Learning Using Biofuel-based ActivitiesDr. Craig J. Hoff, Kettering University Dr. Craig J. Hoff is currently Professor and Head of the Mechanical Engineering Department at Ket- tering University, in Flint, Michigan, where he teaches in the areas of energy systems and automotive engineering. Dr. Hoff’s research focus is on sustainable mobility technologies.Prof. Jennifer Aurandt, Kettering UniversityDr. Matthew R. O’Toole, Kettering UniversityDr. Gregory W. Davis, Kettering University Page

Conference Session

Electrical Energy Courses, Labs, and Projects I

Collection

2013 ASEE Annual Conference & Exposition

Authors

Faruk Yildiz, Sam Houston State University; Keith L. Coogler, Sam Houston State University; Bill Crockford, Sam Houston State University

Tagged Divisions

Energy Conversion and Conservation

projects background compared solar panelswith TEGs. The comparison study dealt with efficiency, power generation capability andcapacity, cost, size, potential consumer applications, and system installation complexity togenerate power. The balance of the system included the number of the components that go intothe system. For both devices, two separate laboratory environments were created to measure thepower outputs and efficiencies. Both devices were tested at different locations due to operatingenvironments were not similar. A solar PV module was tested under sun light whereas TEGmodule was tested inside an air conditioner condenser unit on same days. This paper documentstest results of the comparison of two energy generating systems and lists

Conference Session

Training and Workforce Needs in the Energy Sector

Collection

2013 ASEE Annual Conference & Exposition

Authors

Wajiha Shireen, University of Houston (CoT); Radhakrishna Kotti, University of Houston (CoE); Jesus Arturo Villanueva

Tagged Divisions

Energy Conversion and Conservation

interests are in the area of power electronics which includes advanced converters for power supplies, power quality issues, active power filter development, utility interface issues, power conditioning systems for fuel cells, wind and solar energy systems. She holds one US patent with industry collaboration. She is an IEEE Senior member and is actively involved in funded research projects while engaged in teaching, research and consulting in the area of power electronics, motor drives, power quality and clean power utility interface issues.Mr. Radhakrishna Kotti, University of Houston (CoE) Radhakrishna Kotti received his B.TECH degree from Jawaharlal Nehru Technological University (J.N.T.U), India in 2010. Currently he

Conference Session

Training and Workforce Needs in the Energy Sector

Collection

2013 ASEE Annual Conference & Exposition

Authors

Sungwon S. Kim, Minnesota State University, Mankato; Patrick A. Tebbe, Minnesota State University, Mankato

Tagged Divisions

Energy Conversion and Conservation

). Before joining MSU Mankato, Dr. Kim was a Visiting Assistant Professor in the School of Engineering at Purdue University, teaching courses in the thermal fluid sciences, and conducting research in nanotechnol- ogy. His research expertise and interests lie in the controlled synthesis of CNTs for thermal and biological applications. While at Purdue, he was actively involved in research sponsored by DARPA (Defense Ad- vanced Research Projects Agency) in the development of carbon nanotube (CNT) enhanced wicks for vapor chambers (Thermal Ground Plane Program), and in enhancement of thermal interfaces using CNTs (Nano Thermal Interface Program). Currently, his research activities are concentrated in the area of engineering