Displaying all 5 results
- 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
sponsor’s needs, and (3) systemsengineering concepts including project management, team work, communications, and ethics etc.Multidisciplinary design teams are used whereby the students interact with their peers and withthe faculty inside and outside of the class room. Some design examples are offered to show ourexperiences of incorporating Renewable Energy projects in the senior design course, like designand development of a biomass bioreactor test-bench, design and development of vertical axiswind turbine. The primary goal of the projects is to provide students with a deeper understandingof the need for renewable energy sources, the advantages and disadvantages of a particularenergy type, and the global and economic impact of the chosen energy
- 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
Engineering Technology at LeTourneau University, where he has taught since 1979. He is currently co-developer of the program in BioMedical Engineering. He received his B.S.E.E. from the State University of New York at Buffalo and his M.S. and Ph.D. degrees from Drexel University. Prior to joining the faculty at LeTourneau, he was involved in cardiac cell research at the University of Kansas Medical Center. His professional interests include bioinstrumentation, digital signal processing, and engineering ethics. Email: paulleiffer@letu.edu Page 22.1027.1 c American Society for
- 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
22.1586.7and holes in the depletion region leading to the spontaneous emission of radiation. II. Incorporation of Simulations and Virtual Experiments to support DeVry University’s Academic Programs:For the past several years, DeVry University has been using ATeL’s software with measurablesuccess to support laboratory objectives in our Wireless and Broadband courses, as well as onegeneral education course titled, “Technology, Society and Culture” (HUMN-432). Figure 5below shows two screenshots of a simulation that enables students to visualize and measure airpollution in one of the case studies of HUMN-432 course, wherein students explore the socialand ethical implications and influences of technologies on society, and the relationships
- 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
, in this case the cost of batteries. Until the new technology can approach the market cost-per- Page 22.15.3 function, benchmark comparisons will be poor 4 and there will be a natural reluctance to move away from the familiar technology. The commodity market is the hardest for any emerging technology to penetrate. Energy is a commodity. 3. International standards relating to quality, safety, environment, ethical applications and warranty have to evolve and be met. It can be a slow process but if standards are not met, the evolution of the technology will be curtailed 5.These three constraints are a formidable ‘catch
- 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
program.1. Students will be equipped to define, characterize and solve energy problems using thefundamental knowledge and tools in basic mathematical, chemical, physical, and social sciences.2. Students will be quipped to design and conduct meaningful experiments, acquire appropriatedata, analyze, and interpret those data to solve relevant energy engineering problems.3. Students will know pertinent professional, ethical, social and environmental factors in energyengineering and understand the impact of these factors relating to global energy issues.4. Students will complete the program with the ability to communicate technical energy relatedissues effectively both orally and in writing.5. Students will gain an appreciation for lifelong learning