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

. Student clickson the shielding blocks placed on the table, which moves them next to a scale, allowing the student tomeasure their thickness. Next, clicking on the block moves it to the space between the radiation sourceand the detector. Counts can then be measured by setting the time interval and clicking on the counterbutton. Process is repeated for different number of shielding blocks; thus gathering data for differentthicknesses. Entire process can then be repeated for blocks made of different material. Figure 4 showsthe thickness measurement step. Figure 5 shows the lead shielding blocks, next to labels A, B, C, …, foruse in the shielding experiment. Figure 6 shows two of the shielding blocks placed in between theradiation source (on the left

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

] 2x1016 thermal neutronsSteady-State Research 4x1014 fast neutrons ∞ [6] Reactor 5x1014 thermal neutrons Table 2. Comparison of the absolute efficiency for the nuclear pumping source. A B C DPump Source Charged Charged Nuclear Addition Pump Source Particle Particle Energy Energy to Efficiency Energy Energy Produced by Produce ηNP=B/(C+D) Produced Available the Source Neutron (MeV) (MeV

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

is an Academy Professor with the Department of Physics and Nuclear Engineering. He graduated from USMA in 1993 with a Bachelor of Science Degree in Civil Engineering. He is an aviation officer who served in B Co., 3-23 Av Hunter Army Airfield, GA as a UH-60 helicopter flight platoon leader and an assistant battalion operations officer. LTC Allen served as a Company Commander for A Co. 78th Aviation Bn, Camp Zama, Japan. He earned a Master of Science degree in Nuclear Engineering from The University of Florida in 2003. He was an assistant professor in the West Point Department of Physics from 2003 – 2006 teaching core physics and nuclear engineering. After leaving the department, he served two years as a reactor

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

Engineering Education, 2014 Thorium Fuel Cycle for a Molten Salt Reactor: State of Missouri Feasibility Study Yoonjo Jo Jo Leea, Matthew P. Simonesa, John C. Kennedyb, Hakan Usa, Phillip F. Makarewiczb, Janese A. Nehera and Mark A. Prelas, (a) Nuclear Science and Engineering Institute, (b) Mechanical And Aerospace Engineering, University of Missouri, Columbia, MOAbstract This paper was generated as part of a course on advanced nuclear fuel cycles supportedthrough a curriculum development grant from the Nuclear Regulatory Comission. The coursewas graduate level and required a research component. The students in the course chose the topicof “Thorium Fuel Cycle for a Molten

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

contributed to theirlearning in the course. The student responses used a scale of 1 to 5 where, 1= “StronglyDisagree”, 2= “Disagree”, 3= “Neutral”, 4= “Agree” and 5= “Strongly Agree”. All 51 students(100%) completed the survey at the end of the semester. Below are the statements students werepresented (hereafter, Statements will also be referenced with a letter, A-K, corresponding to thelist below): A. The extension problems helped me synthesize multiple course concepts while developing a solution to the problem. B. The extension problems required me to think creatively and critically in order to solve a more complex problem. C. The group in which I was assigned for extension problems came together as a team to

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

Paper ID #10877Repurposing MCNP use for nuclear engineering demonstrations while apply-ing Physics Education Research (PER) best practicesProf. Bryndol A. Sones, U.S. Military Academy Bryndol Sones is Colonel in the US Army and serves as an Academy Professor at the United States Military Academy at West Point where he directs the Nuclear Engineering Program. He has a Ph.D. in Nuclear Engineering from Rensselaer Polytechnic Institutes (RPI). Page 24.1040.1 c American Society for Engineering Education

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

Paper ID #10375Developing a Minor Program in Nuclear Science and EngineeringDr. Masoud Naghedolfeizi, Fort Valley State University Dr. Masoud Naghedolfeizi is a senior professor in the Department of Mathematics and Computer Science at Fort Valley State University. His academic background includes a B.S. in Mechanical Engineering with minor in instrumentation and control, an M.S. in Metallurgical Engineering, and M.S. and Ph.D. in Nuclear Engineering. Dr. Naghedolfeizi’s research interests include instrumentation and measurement systems, control systems, applied artificial intelligence, information processing, 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

Paper ID #8677Developing a Reactor Operator Training Course Series at Oregon State Uni-versityDr. Wade R. Marcum, Oregon State University Assistant Professor Department of Nuclear Engineering & Radiation health Physics Areas of expertise lie within fluid-structure interactions, experimental thermal-hydraulics, turbulence, reactor safety, system modeling, and advanced nuclear reactor concepts.Dr. Steve Reese, Oregon State University Dr. Reese is the Director for the Oregon State University Radiation Center and instructor in the De- partment of Nuclear Engineering and Radiation Health Physics. The Radiation Center

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