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Title: Status on the Development of a Modeling and Simulation Framework for the Economic Assessment of Nuclear Hybrid Energy Systems

Technical Report ·
DOI:https://doi.org/10.2172/1244626· OSTI ID:1244626
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  1. Idaho National Lab. (INL), Idaho Falls, ID (United States)
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An effort to design and build a modeling and simulation framework to assess the economic viability of Nuclear Hybrid Energy Systems (NHES) was undertaken in fiscal year 2015 (FY15). The purpose of this report is to document the various tasks associated with the development of such a framework and to provide a status on its progress. Several tasks have been accomplished. First, starting from a simulation strategy, a rigorous mathematical formulation has been achieved in which the economic optimization of a Nuclear Hybrid Energy System is presented as a constrained robust (under uncertainty) optimization problem. Some possible algorithms for the solution of the optimization problem are presented. A variation of the Simultaneous Perturbation Stochastic Approximation algorithm has been implemented in RAVEN and preliminary tests have been performed. The development of the software infrastructure to support the simulation of the whole NHES has also moved forward. The coupling between RAVEN and an implementation of the Modelica language (OpenModelica) has been implemented, migrated under several operating systems and tested using an adapted model of a desalination plant. In particular, this exercise was focused on testing the coupling of the different code systems; testing parallel, computationally expensive simulations on the INL cluster; and providing a proof of concept for the possibility of using surrogate models to represent the different NHES subsystems. Another important step was the porting of the RAVEN code under the Windows™ operating system. This accomplishment makes RAVEN compatible with the development environment that is being used for dynamic simulation of NHES components. A very simplified model of a NHES on the electric market has been built in RAVEN to confirm expectations on the analysis capability of RAVEN to provide insight into system economics and to test the capability of RAVEN to identify limit surfaces even for stochastic constraints. This capability will be needed in the future to enforce the stochastic constraints on the electric demand coverage from the NHES. The development team gained experience with many of the tools that are currently envisioned for use in the economic analysis of NHES and completed several important steps. Given the complexity of the project, preference has been given to a structural approach in which several independent efforts have been used to build the cornerstone of the simulation framework. While this is good approach in establishing such a complex framework, it may delay reaching more complete results on the performance of analyzed system configurations. The integration of the previously reported exergy analysis approach was initially proposed as part of this milestone. However, in reality, the exergy-based apportioning of cost will take place only in a second stage of the implementation since it will be used to properly allocate cost among the different NHES subsystems. Therefore, exergy does not appear at the level of the main drivers in the analysis framework; the latter development of the base framework is the focus of this report.

Research Organization:
Idaho National Lab. (INL), Idaho Falls, ID (United States)
Sponsoring Organization:
USDOE Office of Nuclear Energy (NE)
DOE Contract Number:
AC07-05ID14517
OSTI ID:
1244626
Report Number(s):
INL/EXT-15-36451; TRN: US1601053
Country of Publication:
United States
Language:
English

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Related Subjects

97 MATHEMATICS AND COMPUTING
29 ENERGY PLANNING, POLICY, AND ECONOMY
NUCLEAR ENERGY
ECONOMIC ANALYSIS
COMPUTERIZED SIMULATION
FEASIBILITY STUDIES
ENERGY SYSTEMS
HYBRID SYSTEMS
ALGORITHMS
STOCHASTIC PROCESSES
OPTIMIZATION
DESALINATION PLANTS
APPROXIMATIONS
TESTING
COMPUTER CODES
MATHEMATICAL SOLUTIONS
DESIGN
MARKET
PERFORMANCE
MATHEMATICAL MODELS
POWER SYSTEMS
RENEWABLE ENERGY SOURCES
ENERGY STORAGE SYSTEMS
Area Control Error
ART
Dynamic modeling library
Functional Mockup Unit
high performance computing
Loss of Load Probability
National Renewable Energy Laboratory
Nuclear hybrid energy systems
Photovoltaic
TDO