Analysis of controls for integrated energy storage system in energy arbitrage configuration with concrete thermal energy storage

•IES with CTES control systems allow for reactor and turbine power matching.•IES developed in Modelica allows enhanced feedback and system behavior observations.•Simulated load-follow based on real grid demand data matched by IES.•Energy storage can shift grid production by baseload nuclear generati...

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Veröffentlicht in:	Applied energy 2022-05, Vol.313 (118800), p.118800, Article 118800
Hauptverfasser:	Mikkelson, Daniel, Frick, Konor
Format:	Artikel
Sprache:	eng
Schlagworte:	Concrete thermal energy storage Control systems Energy arbitrage Energy distribution control ENERGY STORAGE GENERAL STUDIES OF NUCLEAR REACTORS Hybrid repository Integrated energy system Modelica
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container_title	Applied energy
container_volume	313
creator	Mikkelson, Daniel Frick, Konor
description	•IES with CTES control systems allow for reactor and turbine power matching.•IES developed in Modelica allows enhanced feedback and system behavior observations.•Simulated load-follow based on real grid demand data matched by IES.•Energy storage can shift grid production by baseload nuclear generation.•Models are built for use in an open-source library. Integrated energy systems (IES) are continuing to gain research support, as high-level studies indicate that systems integrating nuclear power, energy storage, and renewable sources can reduce carbon emissions and maintain grid stability. This paper details new modeling (written in the Modelica language) capable of dynamically measuring the system-wide feedback of a nuclear power plant (NPP) maneuvering through energy arbitrage. This is accomplished through integration with a thermal energy storage (TES) system via a novel turbomachinery model design that integrates seamlessly with standard fluid network analysis via conservation-law-based analysis. A new control system is implemented to enable the NPP modal operation to meet a 5-day power demand profile generated from Idaho Power Company data. Compared to scaling dispatchable power systems to maximum demand, 20% more power can be generated by using energy arbitrage over this dataset. These detailed physical models provide a novel confirmation of methods previously used to support nuclear IES.
doi_str_mv	10.1016/j.apenergy.2022.118800
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source	ScienceDirect Journals (5 years ago - present)
subjects	Concrete thermal energy storage Control systems Energy arbitrage Energy distribution control ENERGY STORAGE GENERAL STUDIES OF NUCLEAR REACTORS Hybrid repository Integrated energy system Modelica
title	Analysis of controls for integrated energy storage system in energy arbitrage configuration with concrete thermal energy storage
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