Displaying all 16 results
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- Program and Curriculum Design Initiatives
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- 2014 ASEE Annual Conference & Exposition
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- Jaby Mohammed, The Petroleum Institute
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- Manufacturing
Paper ID #10025Freshmen engineering course in an Oil & Gas UniversityDr. Jaby Mohammed, The Petroleum Institute Jaby Mohammed is a faculty at The Petroleum Institute, Abu Dhabi, UAE. He received his PhD in Indus- trial Engineering from University of Louisville (2006), masters in Industrial Engineering from University of Louisville (2003) and also a master’s in business administration from Indira Gandhi National Open Uni- versity (2001). His research interests include advanced manufacturing, design methodologies, six sigma, lean manufacturing, and engineering education. He previously taught at Indiana Purdue Fort Wayne
- Conference Session
- Manufacturing Materials and Processes
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- 2014 ASEE Annual Conference & Exposition
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- Robert L. Mott, University of Dayton; Ronald J. Bennett F.ASEE, F.ABET P.E., University of St. Thomas; Mark J. Stratton, SME; Mel Cossette, Edmonds Community College; Thomas G. Stoebe, University of Washington; Frank Zeh Cox, National Resource Center for Materials Tecnology Education
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to sales, marketing and general management. He founded the School of Engineering at the University of St. Thomas, and teaches and publishes in the areas of materials engineering, innovation, strategy, technology transfer, leadership and engineering education. His current focus is on webinars and workshops on leader- ship for engineers in industry and academia. Bennett is a member of numerous scientific and professional societies, is an ABET program evaluator and commissioner. He has a wide variety of academic publica- tions, and is co-author with Elaine Millam of the 2012 McGraw-Hill book Leadership for Engineers: The Magic of Mindset.Mr. Mark J. Stratton, SME Mark Stratton is the Education Relations Manager
- Conference Session
- Program and Curriculum Design Initiatives
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- 2014 ASEE Annual Conference & Exposition
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- Marilyn Barger P.E., FLATE (Florida Advanced Technological Education Center of Excellence); Richard Gilbert, University of South Florida; Marie A. Boyette, FLATE; Deshjuana Bagley
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- Manufacturing
Center of Excellence for Advanced Technological Education in Florida, FLATE. FLATE, now in its 10 year of op- eration, addresses curriculum, professional development, and outreach issues to support the creation of Florida’s technical workforce. Richard has over 30 years of experience working with the K-14 education community. Other funded efforts include projects for the NIH and the US Department of Education. The latter was for the development of an engineering curriculum for elementary school applications. The for- mer is for development of electric field mediated drug and gene applicators and protocols. This effort has generated over 20 patents and protocols currently in Phase II trials.Dr. Marie A. Boyette, FLATE
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- Program and Curriculum Design Initiatives
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- 2014 ASEE Annual Conference & Exposition
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- Victoria Ann Hill, Numeritics
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- Manufacturing
has grown to include a consortium of eight companies whohave joined forces to provide similar training, and has evolved from an original trainer/traineeformat to its current mentoring-based curriculum. Apprenticeship 2000 has successfullygraduated 116 students, and has 49 current apprentices in training.National Science Foundation Advanced Technical Education (ATE) ProgramAn excellent model for using community colleges to train skilled workers is that of the NationalScience Foundation’s (NSF) Advanced Technical Education (ATE) program. This programoffers Federal grants to community colleges that are focused on educating technician for high-technology fields. The program encourages partnerships between educational institutions andemployers to
- Conference Session
- Green and Sustainable Manufacturing Education
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- 2014 ASEE Annual Conference & Exposition
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- Ismail Fidan, Tennessee Technological University
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- Manufacturing
. Page 24.780.1 c American Society for Engineering Education, 2014 Integrating the Energy Efficiency and Assessment Components into ManufacturingAbstractThis paper reports the current developments and implementations on energy efficiency andassessment studies in an engineering technology program. The developments are basically in twocategories: 1) Web-based teaching modules of Renewable Energy Education have beendeveloped through a funded research project. Instructional Materials, Laboratory Practices andAssessment Exercises have been posted to iLearn (which a Desire2Learn system) and Canvas(which is an Instructure system). Developed materials have been tested by
- Conference Session
- Teaching and Assessment Methodologies
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- 2014 ASEE Annual Conference & Exposition
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- Bimal P. Nepal, Texas A&M University; Barry Lawrence, Texas A&M University; Esther Rodriguez-Silva PhD, Texas A&M University
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- Manufacturing
Paper ID #8713Partnering with Industry for Providing Experiential Learning in an Under-graduate Class in Industrial DistributionDr. Bimal P. Nepal, Texas A&M University Dr. Bimal Nepal is an assistant professor in the Industrial Distribution Program at Texas A&M University. His research interests include integration of supply chain management with new product development decisions, distributor service portfolio optimization, pricing optimization, supply chain risk analysis, lean and six sigma, and large scale optimization. He has authored 30 refereed articles in leading supply chain and operations management
- Conference Session
- Green and Sustainable Manufacturing Education
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- 2014 ASEE Annual Conference & Exposition
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- Radian G Belu, Drexel University (Tech.); Richard Chiou, Drexel University (Eng. & Eng. Tech.); Tzu-Liang Bill Tseng, University of Texas, El Paso; Lucian Ionel Cioca, "Lucian Blaga" University Sibiu, Romania
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- Manufacturing
beoptimized, usually through designed software packages for modeling, analysis and optimization.In the last two decades there have been significant advances in renewable energy technologies,as well as increased demands for engineers and technicians trained in these areas, requiringinnovative curricula, new courses and laboratories to educate students to work in this rapidlydeveloping industry and to help professionals become acquainted with these new technologies.However, the pace of change in education curriculum is growing exponentially due to legislativechanges, financial or administrative constraints. Engineering education moves into the twentyfirst century charged with an environmental agenda due to response to wider changes in thesociety
- Conference Session
- Green and Sustainable Manufacturing Education
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- 2014 ASEE Annual Conference & Exposition
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- Vukica M. Jovanovic, Old Dominion University; Manveer Mann; Petros J Katsioloudis, Old Dominion University; Daniel L. Dickerson, Old Dominion University
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Paper ID #10940Enabling Multidisciplinary Perspective in Student Design Project: Fast Fash-ion and Sustainable Manufacturing SystemsDr. Vukica Jovanovic, Old Dominion University Dr. Jovanovic is currently serving as Assistant Professor of Mechanical Engineering Technology De- partment, Frank Batten College of Engineering and Technology, Old Dominion University, Norfolk, VA. Prior to joining ODU’s Engineering Technology Department Dr. Jovanovic was teaching at Trine Uni- versity, Angola, Indiana at Design Engineering Technology Department. Before Trine, she was working as an instructor and a graduate research assistant at
- Conference Session
- Best Practices and Lessons Learned in Capstone Design Projects
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- 2014 ASEE Annual Conference & Exposition
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- Christopher P. Pung, Grand Valley State University; Hugh Jack, Grand Valley State University
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- Manufacturing
the studentsdevelop designs to satisfy the sponsor needs. The semester concludes with student presentations tosponsors. The sponsor must accept the proposal. In the second spring/summer semester the studentsorder materials, build components, integrate components, test, and eventually deliver the result. Like the Page 24.741.2first semester, the sponsors must accept the final product for the course to conclude. The first semesterincludes lecture content, as listed2. The second semester of the course does not include lectures.Throughout both semesters, students hold weekly meetings with faculty and produce progress reports. ● An
- Conference Session
- Teaching and Assessment Methodologies
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- 2014 ASEE Annual Conference & Exposition
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- Chris Plouff, Grand Valley State University; Christopher P. Pung P.E., Grand Valley State University; Hugh Jack, Grand Valley State University
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- Manufacturing
program outcomes. Most manufacturing programs welcome the external review tovalidate their efforts.The Four Pillars of Manufacturing Engineering (Four Pillars) model was developed in 20114. Itprovides a clear graphical outline of the core content of manufacturing programs. The four pillarsmodel has been adopted by the accreditation groups in ABET and ATMAE, through the SME.The four pillars model groups specific knowledge and skills into topic- and process-basedcategories. The content of the Four Pillars model has been related to industry practices includinga recent study by Nutter5. Therefore, an assessment plan that maps an academic curriculum to thefour pillars can directly establish an industry relevance.This paper outlines a process for
- Conference Session
- Teaching and Assessment Methodologies
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Juan Song, Alamo College
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- Manufacturing
extensively integrated into the curriculum, allowing technical workers tobypass several years of on-the-job training. The skilled graduates will be more welcomed bymanufacturing partners as they are already trained and ready to fill advanced positions inmanufacturing. Second, the students enrolled into the program are getting paid over the two-yearprogram, essentially eliminating the need for most student loans. This is an attractive prospectiveto many students who struggle to finance their higher education.Overview and ObjectivesAdvanced manufacturing in the U.S. has experienced a profound transformation over the lastdecades. Technology has become increasingly sophisticated, while the workforce with thecorrect skills has become increasingly lean
- Conference Session
- Leadership, Entrepreneurship and Ethics Education
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Ronald J. Bennett F.ASEE, F.ABET P.E., University of St. Thomas; Niaz Latif, Purdue University Calumet (College of Technology); Aco Sikoski, Ivy Tech Community College; Steven Wendel, Sinclair Community College; Mohammad A. Zahraee, Purdue University Calumet (College of Technology)
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Vice Chancellor. As a program chair and dean, Mr. Sikoski was involved in developing several technology and engineering programs, including the Energy Technology and Pre-Engineering Program. Developing programs to meet industry workforce needs and student’s successes are his priorities. He served as an educational co-chair and chair of the curriculum committee of the Indiana Energy Consortium. He is a member of the Executive Board of Association of Technology Management and Applied Science and a visiting team member. Additionally, he serves on the advisory boards for College of Technology at Purdue University Calumet, Purdue University North Central and the Porter County Career Center.Mr. Steven Wendel, Sinclair
- Conference Session
- Green and Sustainable Manufacturing Education
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Richard Chiou, Drexel University; Radian G Belu, Drexel University (Tech.); Tzu-Liang Bill Tseng, University of Texas, El Paso; M. Eric Carr, Drexel University; Bharadwaj Ramesh, Drexel University
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- Manufacturing
Page 24.1024.1 c American Society for Engineering Education, 2014 Prototype Design of a Solar Greenhouse Incorporating Clean Energy Manufacturing Concept AbstractThis paper discusses an educational effort that incorporates green energy manufacturing conceptsfor the prototype design of a solar greenhouse in a senior design project. The goal of the seniordesign project was to provide the design of a greenhouse module integrated with renewableenergy as an initial stepping stone for the future construction of manufacturing plants in industry.The renewable energy integrator component in the project seeks to explore the technology ofrenewable and
- Conference Session
- Use of Technology for Education
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- 2014 ASEE Annual Conference & Exposition
- Authors
- Priya Manohar, Robert Morris University; Sushil Acharya, Robert Morris University; Peter Y Wu, Robert Morris University
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- Manufacturing
. Thework was supervised by manufacturing and computer faculty and implemented in Visual C++.The paper will demonstrate this approach where the students developed process visualizationtools as part of their manufacturing engineering curriculum.2. Ingot Casting SystemProduction planning is known to be an extremely difficult task due to rapidly changing marketneeds, a high degree of complex logistics involved, and therefore the use of the right tool willmake the job easier and may result in higher efficiency and higher profits [8]. The productionplanning problem of metal ingots casting is addressed in the system presented in the presentwork. The solution strategy is based on an analysis of the bottle neck of the assembly line [9],where the melting
- Conference Session
- Teaching and Assessment Methodologies
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- M. Austin Creasy, Purdue University (Statewide Technology); Nicole Otte, Central Nine Career Center
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- Manufacturing
areas, manufacturingis a dominant economic activity that requires students be competent in the science, technology,engineering, mathematics (STEM) fields and typically requires a post-secondary education forsome of the better paying positions. In an effort to assist students with this challenge andeducate more students for the manufacturing work force, a partnership was formed to put asecondary STEM teacher and college faculty in the same classroom. The partnership allowedstudents to know the local post-secondary educational options related to STEM and to getcomfortable with the campus while being introduced to computer integrated manufacturing(CIM) practices. This initial class had ten students that participated and this paper will explainthe
- Conference Session
- Green and Sustainable Manufacturing Education
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Tzu-Liang Bill Tseng, University of Texas, El Paso; Richard Chiou, Drexel University (Eng. & Eng. Tech.); Paras Mandal, University of Texas, El Paso; Eric D Smith, University of Texas, El Paso; Radian G Belu, Drexel University (Tech.); Oscar H. Salcedo, University of Texas, El Paso
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- Manufacturing
)” leadershipworkshops which are used to enhance student’s professional success are introduced. Basically,two general leadership workshops and two technical leadership workshops were arranged anddelivered during the Systems Engineering Day. The paper is aimed at integrating green energyinto the manufacturing engineering curriculum and to cultivate leaders in the field amongminority and female engineering students. Successful completion of the course will lead toexcellence in green energy and advanced engineering education.Introduction and BackgroundThe United States (U.S.) is on the cusp of transformational changes in how energy is producedand used. Major investments are being made by the federal government and industry in cleanenergy technologies that will