Open AccessDynamic Simulation and Optimization of Nuclear Hydrogen Production Systems
Author(s) -
Paul I. Barton,
Mujid S. Kaximi,
Georgios Bollas,
Patricio Ramirez Munoz
Publication year - 2009
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/962650
Subject(s) - hydrogen production , interface (matter) , computer science , process (computing) , production (economics) , nuclear reactor , hydrogen , nuclear power plant , process engineering , nuclear engineering , engineering , chemistry , nuclear physics , physics , parallel computing , operating system , organic chemistry , bubble , maximum bubble pressure method , economics , macroeconomics
This project is part of a research effort to design a hydrogen plant and its interface with a nuclear reactor. This project developed a dynamic modeling, simulation and optimization environment for nuclear hydrogen production systems. A hybrid discrete/continuous model captures both the continuous dynamics of the nuclear plant, the hydrogen plant, and their interface, along with discrete events such as major upsets. This hybrid model makes us of accurate thermodynamic sub-models for the description of phase and reaction equilibria in the thermochemical reactor. Use of the detailed thermodynamic models will allow researchers to examine the process in detail and have confidence in the accurary of the property package they use
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