Real-Time Simulation of a Small Modular Reactor in-the-Loop within Nuclear-Renewable Hybrid Energy Systems

Advanced small modular reactors (SMRs) have recently been developed in many designs; therefore, nuclear energy stands out as a promising alternative to sustainability and reliability in replacing fossil fuel energies in microgrids. SMRs have been shown as the best option due to the fact of their low...

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Bibliographic Details
Published inEnergies (Basel) Vol. 15; no. 18; p. 6588
Main Authors Gabbar, Hossam A., Esteves, Otavio Lopes Alves
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2022
Subjects
Alternative energy
Alternative energy sources
Cogeneration
Comparative analysis
Control systems
Distributed generation
Electric vehicles
Energy minerals
Fossil fuels
hardware-in-the-loop
Hydrogen as fuel
modeling and simulation
Modelling
Modular systems
Nuclear energy
Nuclear power plants
Nuclear reactor components
Nuclear reactors
Nuclear safety
nuclear-renewable hybrid energy systems
Reactors
Real time
Reliability
Simulation
Simulators
small modular reactor
Sustainability
Sustainable development
Germany
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Summary:Advanced small modular reactors (SMRs) have recently been developed in many designs; therefore, nuclear energy stands out as a promising alternative to sustainability and reliability in replacing fossil fuel energies in microgrids. SMRs have been shown as the best option due to the fact of their lower initial capital, greater scalability, and siting flexibility compared to large nuclear plants. Nowadays, there are several simulators able to reproduce all the safety and control mechanics of different nuclear reactors; however, there exists a lack of emulators able to put these functionalities into a real scenario to ensure the feasibility of the use of nuclear energy within energy systems, especially in nonconventional systems. This paper aims to mimic the central control system of SMRs by modeling the nuclear processes aiming to contribute to real-time simulations using SMRs integrated with renewable energy in microgrids that could be applied for different scenarios, such as cogeneration systems or fast-charging stations for electric vehicles, by considering the impact on dispatch and reliability. The simulation process of the proposed model was validated experimentally using the hardware-in-the-loop technique, which consisted of the modeling being integrated into the hardware and tested using real-time simulators. The proposed system, also denominated as SMR-in-the-Loop, was designed and adapted to be easily integrated with existing microgrid systems to represent the behavior of an SMR in nuclear-renewable hybrid energy systems, avoiding high investments and complexity in testing and implementing actual nuclear reactors.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15186588