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Optimal Economic Dispatch and Load-Following Strategies for Nuclear Integrated Energy Systems

Journal Article · · IEEE Access
 [1];  [1]
  1. University of Texas at San Antonio, TX (United States)
+ Show Author Affiliations

The need for distributed and adaptable energy resources that can handle the growing unpredictability in both supply and demand is rising as the power system continues to modernize. In order to satisfy those needs and maintain grid resilience, nuclear power plants can dynamically control their output, despite typically being used as baseload generators. By incorporating energy storage and renewable energy sources, nuclear integrated energy systems are designed to satisfy the electrical and thermal demands of different end-user applications while ensuring flexible power operation. These systems generate revenue by participating in both wholesale and ancillary services electricity markets, as well as commodity markets for various byproducts generated from coupled industrial processes. This study addresses the economic dispatch efficiency of a tightly coupled nuclear integrated energy system comprising a gigawatt-scale light water reactor, commercialized in the U.S., a high-temperature steam electrolysis unit, a district heating network, and specified electrical loads. To demonstrate the nuclear power plant’s flexibility within the day-ahead unit commitment and economic dispatch framework, while maintaining equilibrium even during periods of refueling outages, this paper develops a mixed-integer linear programming framework that models the subsystems and components of its nuclear steam supply system. A systematic comparative analysis of flexible versus baseload nuclear power plant operation under varying levels of renewable energy integration indicates that flexible operation enhances system profitability by more than 18% while also increasing energy storage utilization, improving reactor responsiveness to load fluctuations, and allowing for greater participation across numerous electricity markets.

Research Organization:
Idaho Operations Office, Idaho Falls, ID (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
NE0009278
OSTI ID:
2573833
Journal Information:
IEEE Access, Journal Name: IEEE Access Vol. 13; ISSN 2169-3536
Publisher:
IEEECopyright Statement
Country of Publication:
United States
Language:
English

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Related Subjects

Coupled industrial processes
economic dispatch
energy storage integration
flexible power operation
high-temperature steam electrolysis
nuclear integrated energy systems
refueling optimization