An Equilibrium Approach to Optimal in-Core Fuel Management for Pressurized Water Reactors
- 1 October 1974
- journal article
- research article
- Published by Taylor & Francis in Nuclear Technology
- Vol. 24 (1) , 33-49
- https://doi.org/10.13182/nt74-a31459
Abstract
As an equilibrium core configuration is reached after only a few refueling cycles, equilibrium core energy costs dominate plant economics. Optimization of these costs can therefore lead to nearly optimum energy costs over plant life. A simple reactor state model has been developed that can predict equilibrium core conditions without reference to previous cycles. By coupling this model to an assignment and direct search algorithm, the refueling procedure and core power at equilibrium are determined so that energy costs are minimized. The equilibrium core parameters are then used to establish pre-equilibrium core conditions.Keywords
This publication has 13 references indexed in Scilit:
- In-Core Fuel Management Optimization by Heuristic Learning TechniqueNuclear Science and Engineering, 1972
- Optimal Operational Strategy in Nuclear Fuel ManagementNuclear Technology, 1972
- Application of Linear Programming to In-Core Fuel Management Optimization in Light Water ReactorsNuclear Science and Engineering, 1971
- Application of Linear Programming to Refueling Optimization for Light Water Moderated Power ReactorsNuclear Science and Engineering, 1971
- Optimal fuel replacement in reactivity limited systemsJournal of Nuclear Energy, 1969
- Optimization of bwr fuel management using an accelerated exhaustive search algorithmJournal of Nuclear Energy, 1969
- Optimization of Nuclear Reactor Fuel Recycle via Linear and Quadratic ProgrammingIEEE Transactions on Nuclear Science, 1968
- The Application of Dynamic Programing to Fuel Management OptimizationNuclear Science and Engineering, 1965
- The Hungarian method for the assignment problemNaval Research Logistics Quarterly, 1955
- On the Hitchcock distribution problemPacific Journal of Mathematics, 1953