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Applications of the Digital Twin and the Related Technologies Within the Power Generation Sector: A Systematic Literature Review

Saeid Shahmoradi, Mahmood Hosseini Imani, Andrea Mazza, Enrico Pons

2025Energies7 citationsDOIOpen Access PDF

Abstract

Digital Twin (DT) technology has emerged as a valuable tool for researchers and engineers, enabling them to optimize performance and enhance system efficiency. This paper presents a comprehensive Systematic Literature Review (SLR) following the PRISMA framework to explore current applications of DT technology in the power generation sector while highlighting key advancements. A new framework is developed to categorize DTs in terms of time-scale horizons and applications, focusing on power plant types (emissive vs. non-emissive), operational behaviors (including condition monitoring, predictive maintenance, fault detection, power generation prediction, and optimization), and specific components (e.g., power transformers). The time-scale is subdivided into a six-level structure to precisely indicate the speed and time range at which it is used. More importantly, each category in the application is further subcategorized into a three-level framework: component-level (i.e., fundamental physical properties and operational characteristics), system-level (i.e., interaction of subsystems and optimization), and service-level (i.e., value-adding service outputs). This classification can be utilized by various parties, such as stakeholders, engineers, scientists, and policymakers, to gain both a general and detailed understanding of potential research and operational gaps. Addressing these gaps could improve asset longevity and reduce energy consumption and emissions.

Topics & Concepts

Systematic reviewKey (lock)Computer scienceRisk analysis (engineering)Electricity generationSystems engineeringReliability engineeringAsset (computer security)Service (business)EngineeringEnergy consumptionElectric power systemCategorizationPower (physics)Range (aeronautics)Fault (geology)Component (thermodynamics)Realization (probability)Data scienceUnderpinningVariety (cybernetics)Power consumptionElectricityDigital Transformation in IndustryMachine Fault Diagnosis TechniquesIntegrated Energy Systems Optimization
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