Engineering Commons^™

Gamma Dose To A Fetus From Internal And External Sources, Lisa Stiles

Opportunities for Undergraduate Research Experience Program (OURE)

The purpose of this study was to use the QAD computer code to calculate the dose received by a fetus from external and internal sources to which the mother is exposed. The changes in Chapter 10, part 20 of the Code of Federal Regulations that will be put into effect January 1, 1994, will require that radiation doses be reported not only for the whole body but to specific organs and the fetus as well. Fortunately, the computer program QAD can provide health physicists and other persons responsible for monitoring radiation exposure of individuals with an accurate, easy to use …

Using Modulated Beam Mass Spectrometry Techniques To Determine Hydrogen Levels In Single Crystal And Etched Single Crystal Silicon, Gregory J. Teets

Opportunities for Undergraduate Research Experience Program (OURE)

Silicon is an important element that has many applications ranging from semiconductors to solar cells. The quantity, diffusion, and bonding of hydrogen atoms in the silicon can play an important role in the electrical characteristics of single crystal and etched single crystal silicon. The hydrogen bonds to the impurities and to the dangling bonds in the silicon and reduces current leakage and improves performance [1-4]. Until now hydrogen bonding data has been extrapolated from related studies to determine hydrogen evolution temperatures from the silicon. Abrefah, Olander, et al. [1] studied deuterium evolution from silicon where the deuterium had been implanted …

Calculation Of Neutron Flux And Neutron Radiation Dose In A Human Phantom, L. Alan Smith

Opportunities for Undergraduate Research Experience Program (OURE)

At present, the neutron dose received by personnel working in nuclear installations is recorded by body surface dosimeters worn by workers. To estimate the true neutron dose to internal organs, this ’surface dose” is multiplied by empirical factors to account for the attenuation of the body itself.

The objective of this work was to obtain better estimates of the internal dose by calculating the attenuation of the neutron flux provided by the body. Using DOT, a 2-D radiation transport code, the neutron flux as a function of energy was calculated at several points in a 2-D model of the human …

Solution Of Divertor Magnetohydrodynamic Equilibria For The Study Of Alpha Particle Edge Transport In Fusion Plasmas, J. W. Schumer

Opportunities for Undergraduate Research Experience Program (OURE)

Removal of thermalized alpha particles from deuterium- tritium (D-T) fusion plasmas can be accomplished through the use of divertor magnetic fields if the magnetohydrodynamic (MHD) equilibria is well understood [1]. Modifying a MHD variational energy principle for poloidal flux surfaces described by 𝒳 = 𝒳(ρ, θ) results in an inverse Fourier representation of the three-dimensional (3-D) equilibria solution. Application of the 𝒳 = 𝒳(ρ, θ) flux profile allows transformation of the magnetic field into a non-singular coordinate system along the divertor separatrix [2] and therefore, analysis of different divertor schemes. Derivation of the coupled, non-linear differential equations follows [5] except …

A Heat Balance Program For A Nuclear Power Plant, Timothy C. Steadham

Opportunities for Undergraduate Research Experience Program (OURE)

In a coal fired power plant, the steam leaving the boiler can reach 1000 °F and 3000 psia; this state is superheated considerably. On the other hand, a nuclear power plant is not capable of reaching such conditions without compromising reactor safety and integrity. Therefore, the steam leaving the reactor might only be a few degrees superheated, and hence the steam leaving each turbine will be wet. Since wet steam will erode turbine blades very quickly, devices must be placed between turbines to separate the steam into saturated vapor and saturated liquid. The steam is routed through the next turbine …

Control And Data Reduction Software For Umr Neutron Spectrometer, Matthew K. Mclaughlin

Opportunities for Undergraduate Research Experience Program (OURE)

A double-scatter time-of flight neutron spectrometer has been obtained by the Nuclear Engineering department of the University of Missouri-Rolla (UMR). As this device was an experimental prototype which was never brought to full operation, the chance to work with two of the original builders of the spectrometer at EG&G Idaho was an excellent opportunity. Part of the work being done with the detector is the development of a PC-based software package for machine control, data acquisition, and data reduction. It is this part of the project which has been supported by UMR’s Opportunities for Undergraduate Research Experience (OURE) program.

A Computer Simulation Of The Umr Reactor, H. Allen Wilkins

Opportunities for Undergraduate Research Experience Program (OURE)

The Opportunities for Undergraduate Research project entitled, "A Computer Simulation of the UMR Reactor" had two goals. To produce a reactor simulation to be used in creating an artificial intelligence based reactor simulation for the UMR Nuclear Reactor and to produce a means of teaching students the fundamentals of reactor operations.

The primary purpose was to create a program which would simulate all the situations one would encounter in actual reactor operation. With the simulator the artificial intelligence system could be thoroughly tested before use with actual reactor data.

This same simulator would be used as a teaching aid for …