Displaying all 20 results
- Conference Session
- Using Real-World Examples
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Radian G. Belu, Southern University; Richard Chiou, Drexel University; Lucian Ionel Cioca, Lucian Blaga University of Sibiu
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
influencing undergraduate Hispanic and other minority students’ decision to considerengineering as their major; 3) Dual programs for Community Colleges and summer programs aswell as High Schools at one of the institution are providing access for pre-college minority andwomen students to careers in engineering and technology; 4) Our project aims to develop andestablish an integrated research-oriented educational facility to support and enhance teachingand learning in these areas, by providing a set of comprehensive laboratory experiments,teaching and learning modules; and 5) The design and implementation of a computationalworkbench for simulating hybrid power systems and distributed energy resources.2. Curriculum ChangesEngineering and technology
- Conference Session
- Installation, Integration, and Development
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Herbert L. Hess, University of Idaho, Moscow; Saied Hemati, University of Idaho, Moscow
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
addresses issues of creating such an integrated photovoltaic / piezoelectric energycollection system with communications and display. The preceding discussion has addressedtechnical issues. There are pedagogical and administrative issues in a two-department seniordesign project.The university hosts a strong interdisciplinary senior design program within its College ofEngineering. The program dates back to 1999 when two Mechanical Engineering professors andone Electrical Engineering professor combined their efforts in teaching a two-semester seniordesign course sequence. Initially, there were only a few interdisciplinary projects. Emphasiswas on creating a unified curriculum that spanned the disciplines. Common elements wereidentified and a common
Energy Engineering Undergraduate Degree Program: Lessons Learned from Program Development and Launch
- Conference Session
- Installation, Integration, and Development
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Greg Kremer, Ohio University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
, theprogram faculty consist of members from chemical engineering, electrical engineering,mechanical engineering, industrial and systems engineering, civil engineering, andenvironmental sciences and policy. Program faculty worked the remainder of 2011 and into 2012to develop a curriculum that integrated technical fundamentals and some advanced topics fromexisting courses, economic analysis from existing Engineering Economy and Economics ofEnergy courses, a revived Engineering and Public Policy course, a new Applied SystemsEngineering course, and a few Energy Engineering specific courses on Fuel and EnergyConversions. A flowchart of the current curriculum is included as an Appendix to this paper.It is important to note that the program is substantially
- Conference Session
- ECCD - Technical Session 6 - Energy & Thermodynamics
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Farshid Zabihian, California State University, Sacramento
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
2020” and “increase the number offormalized partnerships by 20% by 2020” [6]. The engineering curriculums have an untappedpotential to help in achieving these goals.There are limited studies available in the literature on the effectiveness of service learningpedagogy particularly in engineering courses and programs [3]. Warren (2012) [8] analyzed 11research studies on the effectiveness of service learning in improving learning in a variety of fields,including communication, English, sociology, psychology, political science, and pharmacy. Thesestudies utilized a wide variety of tools to measure student learning. The results indicated thatregardless of measurement tools, service learning improved student learning. This type of study iseven more
- Conference Session
- ECCD Innovative Teaching Methods & Outreach
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Paul J. Weber, Lake Superior State University; Joseph P Moening, Lake Superior State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
was to a site where a couple of prototype systems had been installed. One of theprototypes was an aquaculture hoop house (which provided a great analogy for how greenhousegases work) that was used to grow both plants and fish. The energy needs of the system’s fans,pumps, etc. were met by a nearby photovoltaic array. In addition to the traditional photovoltaicarray, there was also a building integrated photovoltaic prototype which enabled the students tolearn more first-hand about utilizing different parts of the solar spectrum for different uses (e.g.electrical energy vs. thermal energy). The second tour was of a local 30 MW hydroelectric plant.Students were able to view the several spare turbines as well as the generators and
- Conference Session
- ECCD Applications in Energy and Thermodynamics
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Ryan L Falkenstein-Smith, Syracuse University; Jeongmin Ahn, Syracuse University; Kang Wang, Syracuse University; Ryan James Milcarek, Syracuse University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
System CourseIntroduction Technology innovation moves at an exponential rate making it extremely difficult forengineering curriculum to educate students on all current developments. All over the nationinstructors are given a limited set of time to cover a wide variety of topics while ensuring thenext generation of professional engineers1-3. This constraint forces instructors to a disciplinebased education, sacrifices hands on experience and student engagement for textbook basednotes and passive student learning3-5. Although students are trained in a professional engineeringdiscipline, they lack the full understanding of the broader role that fundamental engineeringprinciples play in other sectors of industry3, 6. As a direct result
- Conference Session
- ECCD Innovative Teaching Applications
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Thomas E McDermott P.E., University of Pittsburgh; Renee M Clark, University of Pittsburgh
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
. Page 26.1345.1 c American Society for Engineering Education, 2015 Revitalizing an Electromechanical Energy Conversion CourseOur University’s Electrical and Computer Engineering Department has offered an electivecourse in “Electric Machinery” for decades. It is a 4-credit course offered each fall term forjuniors and seniors, with a laboratory component. Prior to fall 2013, this course had been lecture-heavy due to school scheduling requirements, and it suffered from use of old laboratoryequipment that was difficult to maintain. With increasing focus on renewable energy and powerelectronics in the curriculum, we felt the need to modernize this course so that it provides a betterlearning experience and
- Conference Session
- ECCD Innovations in Energy Engineering & Technology
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.); Michael G Mauk P.E., Drexel University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
engineers must be taught to becreative and flexible, and topics of renewable energy are an effective vehicle for developingmulti-disciplinary instruction using a variety of content disciplines and academic standards.Preparing engineering students with the skills and knowledge required to be tomorrow’ssuccessful engineers in the 21st century. Our educational strategy, embedded in our program’scurricula, is based on experiential learning (including also self-directed learning), on discoveringsolutions to design problems that are sustainable, and is focused on helping students to recognizethat they are part of a global community. Throughout our curricula we offer a relevant andvalidated curriculum that prepares students for post-graduation success
- Conference Session
- ECCD International Outreach
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Rim Razzouk, Arizona State University; Anshuman Razdan, Arizona State University, Polytechnic campus; Ambika Prasad Adhikari, Arizona State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
of continuous curriculum improvement. Rim has a PhD in Instructional Systems/Educational Technology from the Florida State University (FSU). Rim also holds a M.Sc degree in Instructional Systems and a Certificate in Human Performance Technol- ogy from FSU, and a B.Sc in Information Technology from Notre Dame University. Rim’s major project and research interests include technology integration in education; assessment and evaluation; learner- centered methods and strategies; and any other methods that assist in enhancing human performance and learning improvement. Rim has authored and co-authored several published articles in peer-reviewed journals, and conferences proceedings. Anshuman Razdan is Professor in
- Conference Session
- Energy Conversion and Conservation Division Technical Session 3: Education Track
- Collection
- 2021 ASEE Virtual Annual Conference Content Access
- Authors
- Radian G. Belu, Southern University; Alexandru Belu; Zhengmao Ye, Southern University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
enterprise ever builtby human beings. The world power and energy infrastructures are facing structural changesincluding liberalization of markets, extended uses of smart sensing and monitoring, two-waycommunication or integration of renewable energy sources. The power and energy industry inthe 21st century is going through an evolutionary period, while new technologies are changingthe way we generate, transmit and deliver electric power. The electric power industry has manynew power grid applications in the forefront and implementation phases. The power system andits wiring connect nowadays every single house to each other and to the power stations togetherwithin a country or region. Furthermore, countries are inter-connected together so that
- Conference Session
- Diverse Issues in Renewable Energy
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Mary Slowinski , M.Ed., CREATE NSF-ATE; Kenneth A. Walz, Madison Area Technical College; Kathleen Alfano, College of the Canyons
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
rare. This further emphasizes theneed to internationalize the curriculum in existing domestic STEM programs such as renewableenergy, so that students who lack first hand travel experience are nevertheless provided anopportunity to develop global literacy skills.Against this backdrop, the challenges facing STEM educators in emerging fields such asrenewable energy include not only identifying critical knowledge and skills presented by newtechnology, but also determining how to incorporate an international perspective in technicalcurricula. Likewise, from a professional development standpoint, the question becomes how toprepare faculty and empower them with international expertise so that they may teach therenewable energy professionals of the
- Conference Session
- ECCD Technical Session 4: Energy and Analysis
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Lisa Bosman, Purdue University, West Lafayette; Jennifer Brinker, Northeast Wisconsin Technical College; Kenneth Walz, Madison Area Technical College
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
the University of Rochester Center for Photo-Induced Charge Transfer. Since 2003, Dr. Walz has taught chemistry and engineering at Madi- son Area Technical College, where he also serves as the director of the Center for Renewable Energy Advanced Technological Education (CREATE). Dr. Walz is also an adjunct professor of Civil and Environmental Engineering at the University of Wiscon- sin. He has served as teacher for the UW Delta Center for Integrating Research, Teaching and Learning, and has mentored several graduate students who completed teaching internships while creating new in- structional materials for renewable energy and chemical education. Dr. Walz is also an instructor with the Wisconsin K-12 Energy
- Conference Session
- ECCD - Technical Session 6 - Energy & Thermodynamics
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Farshid Zabihian, California State University, Sacramento
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
. This percentage for engineering courses was mere 0.86%. This is unfortunate since theinfrastructure required for online education has been primary developed by engineers.The perceived obstacles in widespread integration of online courses in engineering curriculumscan be divided into two categories: physical obstacles and cultural obstacles. A major physicalbarrier is how to provide hands-on trainings, which traditionally take place in laboratories andmachine shops, in an online setting. However, this may not be a major problem since, contrary towhat one may expect, the data shows that online education is primary “local”. A little over half ofall students who took at least one online course took some face-to-face courses at the sameinstitution
- Conference Session
- Energy Conversion and Conservation Division Technical Session on Solar
- Collection
- 2018 ASEE Annual Conference & Exposition
- Authors
- Kenneth Walz, Madison Area Technical College; Joel B. Shoemaker, Madison Area Technical College; Scott Liddicoat, Green Bay Southwest High School; Cris Folk, Madison College
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
were just aseager to learn about how to teach these concepts to students. The lead instructors took time todiscuss instructional strategies with the faculty participants, pointing out commonmisconceptions and common mistakes made by students. These discussions were interspersedthroughout the institute program, so that participants were engaged in a learning format thatalternated between digesting new information and skills, and integrating this information intotheir instructional repertoire. Equally important was providing participants with instructionalmaterials in an accessible format that they could easily utilize in their classrooms. Participants inthe workshop were provided with both teacher lesson plans and student handouts for each of
- Conference Session
- Energy Conversion and Conservation Division Technical Session 2: Solar Track
- Collection
- 2021 ASEE Virtual Annual Conference Content Access
- Authors
- Edmund Huminski, United States Coast Guard Academy; Salena Marie Bantz; Joseph Roth, United States Coast Guard Academy; Liam Scott Caro; Tooran Emami Ph. D., United States Coast Guard Academy; David Fournier, United States Coast Guard Academy
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
. Tooran Emami, United States Coast Guard Academy Tooran Emami is an associate professor of Electrical Engineering at the U. S. Coast Guard Academy. She received M.S. and Ph.D. degrees in Electrical Engineering from Wichita State University in 2006 and 2009, respectively. Dr. Emami was an adjunct faculty member of the Department of Electrical Engineering and Computer Science at Wichita State University for three semesters. Her research interests are Proportional Integral Derivative (PID) controllers, robust control, time delay, compensator design, and filter design applications, for continuous-time and discrete-time systems.Mr. David Fournier, United States Coast Guard Academy Holds a BA and MS from Southern New
- Conference Session
- Energy Conversion and Conservation Division Poster Session
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Robert J. Kerestes, University of Pittsburgh; Dekwuan Stokes, University of Pittsburgh; Ryan M. Brody, University of Pittsburgh; Adam Emes, University of Pittsburgh; Alexander Williams, University of Pittsburgh
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
Paper ID #27029Board 70: Development and Implementation of a Non-Intrusive Load Moni-toring AlgorithmDr. Robert J Kerestes, University of Pittsburgh Robert Kerestes, PhD, is an assistant professor of electrical and computer engineering at the University of Pittsburgh’s Swanson School of Engineering. Robert was born in Pittsburgh, Pennsylvania. He got his B.S. (2010), his M.S (2012). and his PhD (2014) from the University of Pittsburgh, all with a concen- tration in electric power systems. Robert’s academic focus is in education as it applies to engineering at the collegiate level. His areas of interest are in electric
- Conference Session
- ECCD International Outreach
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Mary Slowinski, M.Ed., CREATE NSF-ATE Center; Kathleen Alfano, College of the Canyons
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
Paper ID #12643Renewable Energy Technician Education: Lessons from the German En-ergiewendeMary Slowinski, M.Ed., CREATE NSF-ATE Center Mary Slowinski received her M.Ed. in Learning Science from the University of Washington where she will complete her PhD in the same. She has worked extensively with the National Science Foundation’s Advanced Technological Education program in a variety of consulting capacities including serving as learning coordinator for two international faculty learning projects, participating as an Innovation Coach for a ”scaling-up innovations” project, developing curriculum and learning materials
- Conference Session
- ECCD Applications
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- James V. Masi, University of Southern Maine; Daniel M Martinez, University of Southern Maine; James A Wilson, United States Navy Civil Engineer Corps; Benjamin Richard Male, United States Navy Civil Engineer Corps
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
theintroduction of analytical concepts within an engineering research and design problem. Thispaper describes how the sodium borohydride hydrolysis reaction was integrated into the projectto answer specific design questions and how the students developed a series of experimentalprocedures to achieve basic understanding of the reaction mechanism in order to affect hydrogenproduction specifically under various operating parameters. From a student perspective, theexperimental study of the hydrolysis of sodium borohydride in the presence of acids and polymermixtures demonstrates key aspects of energy, hydrogen, and energy storage potential of boron-containing chemical compounds.Investigating the Reaction’s Hydrogen Generation RateThe reaction that the
- Conference Session
- ECCD Technical Session 4: Energy and Analysis
- Collection
- 2020 ASEE Virtual Annual Conference Content Access
- Authors
- Hitesh D. Vora, Oklahoma State University; Pragya Niraula, Oklahoma State University; Amrit Sunil Chugani, Oklahoma State University; Nilesh Anil Baraskar, Oklahoma State University; Anusha Sunil Saraf, Oklahoma State University; Michael L. McCombs, Oklahoma State University
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
officially began in Guthrie on Christmas Eve 1890 in the McKennon Opera House whenTerritorial Governor George W. Steele signed legislation providing for the establishment of anagricultural and mechanical college as well as an agricultural experiment station in PayneCounty, Oklahoma Territory, effective December 25, 1890 [5]. At long last, Stillwater wasdesignated as the location for the college by the designated commission. On May 15, 1957,Oklahoma A&M changed its name Oklahoma State University of Agricultural and AppliedSciences to reflect the broadening scope of curriculum offered. However, the name was quicklyshortened to Oklahoma State University for most purposes, and the "Agricultural & AppliedSciences" name was formally dropped in
- Conference Session
- Energy Conversion and Conservation Division Technical Session 2
- Collection
- 2019 ASEE Annual Conference & Exposition
- Authors
- Patrick A. Tebbe, Minnesota State University, Mankato; Bruce Allen Peterson, Minnesota State Energy Center of Excellence
- Tagged Topics
- Diversity
- Tagged Divisions
- Energy Conversion and Conservation
Nuclear Society (ANS), and a student branch advisor for the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE).Mr. Bruce Allen Peterson, Minnesota State Energy Center of Excellence Bruce Peterson Dean for Energy Technologies Executive Director, Minnesota State Energy Center of Excellence Minnesota West Community and Technical College Bruce has been engaged in higher education for 40 years as a teacher, curriculum specialist, and admin- istrator. Over the past 24 years he served as Academic Dean at three colleges and as program director over several major grants. In his current position, Bruce is responsible for Energy related programs across Minnesota West campuses. At the state