Global nonlinear analysis code for nuclear systems

Author

Gypsy Lynn Tweed

Date of Award

12-1988

Degree Type

Thesis

Degree Name

Master of Science

Major

Nuclear Engineering

Major Professor

Rafael B. Perez

Committee Members

T. W. Kerlin, Ohannes Karakashian, L. F. Miller

Abstract

This work incorporates into a computer code a recently developed formalism for globally computing the critical parameters of nonlinear problems: bifurcations, limit points, and extrema (maxima and minima). The local sensitivities (i.e., first-order derivatives) of the system's state variables (e.g., fluxes, power, temperatures) at any point in the system's phase space are also determined. After initially testing the code with a simple unconstrained nonlinear optimization problem, the code was expanded to handle more sophisticated systems with active or inactive constraints.

There are two test problems used to verify the code's capabilities. One is an unconstrained nonlinear BWR model consisting of a system of five nonlinear equations. This problem was chosen in order to verify the code's ability to locate the first-order bifurcations of this BWR model. The second test problem is a simple constrained optimization problem that is used to test the inactive/active constraint option implemented into the code. The results obtained from these test problems reveal that the code can accomodate active or inactive constrained optimization problems accurately and efficiently.

Recommended Citation

Tweed, Gypsy Lynn, "Global nonlinear analysis code for nuclear systems. " Master's Thesis, University of Tennessee, 1988.
https://trace.tennessee.edu/utk_gradthes/13361