A computer code capable of modeling the burnup dependent static behavior
of a boiling water reactor was developed. The code calculates
three-dimensional quarter core power distributions using a simulated
two-group diffusion theory model. Thermal-hydraulic calculations account
for the interaction between power, coolant flow, and void fraction
distributions. Cross sections are...
The development of nuclear reactors as an energy source
requires a substantial investment in capital and effort. This
development depends heavily on accurate calculational
methods.
Space-energy flux synthesis, also variously called the
spectral synthesis method, modal method, and overlapping
group method, is one possible method. In this method the
energy...
A system to perform neutron radiographic analysis of dynamic
events taking place over the order of several milliseconds has been
developed at Oregon State University. The design consists of a TRIGA
reactor capable of pulsing to 3000 MW peak power, a neutron beam
collimator with an L/D of about 30:1,...
A significant amount of interest has been
aroused recently concerning the advancement of the
current pressurized water reactor core designs with
a special emphasis towards improving the conversion
characteristics of these reactors. Most reports
have been divided into two camps; those that deal
with the neutronic aspects and those that...
Of great benefit, but not limited to seafloor mineral
exploration, is a technique that fairly rapidly determines the
composition of a drilled vibracore (in a time comparable to the time
involved in obtaining the core). The rapid assessment is desired to
predict whether a given region warrants further exploration by...
The seabed is envisaged to meet the increased future demands for
minerals from the rapidly growing industrialized societies of the world.
Shipboard analysis of cores can significantly reduce the cost and time
spent at the exploratory drilling stage by obviating the need to go back
to land for analysis. It...
Lattice bum-up calculations in thermal reactors are complicated by the necessity
for use of transport theory to represent fuel rods, control rods, and burnable absorbers,
by many time-dependent variables which must be considered in the analysis, and by
geometric complexity which introduces time-dependent, spatial-spectral variations.
Representation of lattice structure in...
This thesis presents the assessment of the Multi Application Small Light Water Reactor (MASLWR) containment design during steady-state and transient conditions. The MASLWR project is a joint effort between Idaho National Environmental and Engineering Laboratory (INEEL), NEXANT Bechtel, and Oregon State University. The project is funded under a Nuclear Energy...