Conference Session

Nuclear and Radiological Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Nestor J. Echeverria, U.S. Military Academy; Kenneth Scott Allen P.E., U.S. Military Academy

Tagged Divisions

Nuclear and Radiological

. Page 24.8.1 c American Society for Engineering Education, 2014The Effects of Interdisciplinary Collaboration in Completing a Radiological Engineering Design Project Page 24.8.2IntroductionAn important skill for engineers to obtain is the ability to perform on cross-disciplinary teams.In fact, the accrediting organization ABET has deemed this a key student outcome for nuclearengineering programs.1 The nuclear engineering program at the United States Military Academy(West Point) offers a unique perspective on the ability of students to perform on cross-disciplinary teams because non-engineering majors are required to take a 3-course

Conference Session

Nuclear and Radiological Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Masoud Naghedolfeizi, Fort Valley State University; Sanjeev Arora, Fort Valley State University; Nabil A. Yousif, Fort Valley State University

Tagged Divisions

Nuclear and Radiological

engineering educa- tion.Prof. Sanjeev Arora, Fort Valley State University Dr. Arora holds a B.Sc. (Honors) and M.Sc. degree in Physics from University of Delhi, India, and a M.S. and Ph.D. degree in Physics from University of Delaware. Dr. Arora’s research interest is experimental atomic physics and he is well-versed in the use of the van de Graaff accelerator, scalars, MCAs, and other physics instrumentation. He has been instrumental in acquiring, through various grants, computers, and software for the physics laboratory at FVSU. Some of his funded grant proposals are as follows: 1) Establishing a Nuclear Science and Engineering Minor at Fort Valley State University 2) Establishing an Undergraduate STEM Teaching and

Conference Session

Nuclear and Radiological Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Wade R. Marcum, Oregon State University; Steve Reese, Oregon State University; Robert A. Schickler

Tagged Divisions

Nuclear and Radiological

Page 24.387.1 c American Society for Engineering Education, 2014 Developing a Reactor Operator Training Course Series at Oregon State University Wade R. Marcum1, Steve R. Reese2, S. Todd Keller2, Robert A. Schickler2 1 Department of Nuclear Engineering and Radiation Health Physics, Oregon State University 2 Radiation Center, Oregon State UniversityABSTRACTOregon State University’s (OSU’s) Department of Nuclear Engineering and Radiation HealthPhysics (NERHP) recently graduated its first influx of students participating in the inaugural“Reactor Operator Training” course series

Conference Session

Nuclear and Radiological Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Samuel A. Heider, U.S. Military Academy; Bryndol A. Sones, U.S. Military Academy; Brian E. Moretti, Department of Physics and Nuclear Engineering

Tagged Divisions

Nuclear and Radiological

is often sought through organizations such as ABET. Accreditation helps to ensurethat an institution is dedicated to producing graduates who are prepared for employment inindustry, research, teaching, and government. Engineers acquire and hone many skills while pursuing their engineering degrees, but it isoften skills that are not specifically engineering skills that are most desired by employers.According to Peter D. Hart Research Associates, Inc. The most highly sought after employeeskills are teamwork, critical thinking, analytical reasoning, and communication.1 For ABETaccredited institutions these abilities are certified through Student Outcomes including, ‘anability to function on multi-disciplinary teams’ and ‘an ability to

Conference Session

Nuclear and Radiological Division Technical Session 1

Collection

2014 ASEE Annual Conference & Exposition

Authors

Trevor D. McLaughlin, U.S. Military Academy

Tagged Divisions

Nuclear and Radiological

United States Military AcademyINTRODUCTION:Nuclear engineering students have many expectations of them upon graduation; primary among thoseexpectations is to be technically proficient—it is hard to be successful without this trait. Understandingthat success for engineers comes in many forms, it often follows those that are able to apply theirtechnical skills in concert with a strong foundation in other skills that are fundamental to practicing theirprofession. “The practice of engineering involves significant interaction with subjects that fall outsidethose traditionally associated with engineering.” 1 For this reason it is appropriate that educators affordstudents the means to gain “the knowledge and skills that are fundamental to the practice

Conference Session

Nuclear and Radiological Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Ye Li, Univ of Illinois; Rizwan Uddin, University of Illinois, Urbana-Champaign; Xuefeng Zhu; Imran Haddish

Tagged Divisions

Nuclear and Radiological

experience [1-3]. Though virtuallab experience may never completely replace an actual physical lab experience in educationalinstitutions, in some ways virtual labs may provide a better experience than limited cookbook styleexecutions in a physical lab or reactor operator training course.We have earlier reported our initial efforts toward the development of a generic virtual and interactivelaboratory environment [3]. This virtual lab presents a fully immersive learning experience. We herereport the specifics of a radiation lab in which half-life and shielding experiments can be conducted, andsimulation-based real-physics data can be gathered.Virtual LabThe primary resource for the development of a virtual lab is a game engine. Built-in features in

Conference Session

Nuclear and Radiological Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Mark A. Prelas, University of Missouri, Columbia; Matthew L. Watermann, NSEI - University of Missouri; Denis Alexander Wisniewski; Janese Annetta Neher, Nuclear Science and Engineering Institute-University of Missouri Columbia; Charles Lyndell Weaver III, University of Missouri - Columbia

Tagged Divisions

Nuclear and Radiological

2014.Nuclear-Pumped Laser (NPL) technology was a part of the strategic defense initiative (SDI)program in the 1980’s. NPLs have since faded from the United States research agenda but theyremain an active part of the research agenda in other countries, notably in Russia and othernations in the former Soviet Union as well as China [1] which has a cooperative agreement withRussia [2]. The reason for this broad interest in the technology is that a NPL can scale to highpower/energy levels (potentially up to 100 MW Continuous Wave (CW) beam power). Militaryapplications have historically dominated the NPL research agenda. However, there aresignificant humanitarian applications for high power/energy lasers. For example a high powerCW NPL would have

Conference Session

Nuclear and Radiological Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Bryndol A. Sones, U.S. Military Academy

Tagged Divisions

Nuclear and Radiological

with a solution for a peer. This paper discusses an example for executing these MCNP demonstrations and provides preliminary assessment plan in improving student gains in understanding these topics. Key words: modeling & simulation, education research, nuclearIntroduction In 1996, The American Association of Physics Teachers (AAPT) began holding newfaculty workshops to help new faculty “understand how to become more effective educators andsupport their quest to gain tenure.”1 The next year, Harvard University physicist Eric Mazur Page 24.1040.2published his manual on peer instruction and began a campaign to question

Conference Session

Nuclear and Radiological Division Technical Session 2

Collection

2014 ASEE Annual Conference & Exposition

Authors

Yoonjo Jo Jo Lee, University of Missouri; Matthew Paul Simones, Nuclear Science and Engineering Institute, University of Missouri; John C. Kennedy, University of Missouri; Hakan Us; Philip F. Makarewicz, University of Missouri; Janese Annetta Neher, Nuclear Science and Engineering Institute-University of Missouri Columbia; Mark A. Prelas, University of Missouri, Columbia

Tagged Divisions

Nuclear and Radiological

understood. Chiefamong these technological hurdles is the use of continuous processing of spent fuel to removefission products while the reactor is online [1]. The voluminous literature on molten salt reactors mostly dates to the 1960s era. Notably,in the U.S. the Molten Salt Reactor Experiment at Oak Ridge National Laboratory was an 8MW(th) reactor that was designed primarily to study the technical feasibility and safety of usinga molten salt based fuel and coolant. In addition to demonstrating the practicality of a moltensalt reactor, the Molten Salt Reactor Experiment also addressed issues of on-line refueling, fuelmakeup, and salt chemistry. Towards the end of the Molten Salt Reactor Experiment, andcontinuing after its shutdown, research