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Advancements in Real-Time Simulation of Power and Energy Systems

Advancements in Real-Time Simulation of Power and Energy Systems

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Modern power and energy systems are characterized by the wide integration of distributed generation, storage and electric vehicles, adoption of ICT solutions, and interconnection of different energy carriers and consumer engagement, posing new challenges and creating new opportunities. Advanced testing and validation methods are needed to efficiently validate power equipment and controls in the contemporary complex environment and support the transition to a cleaner and sustainable energy system. Real-time hardware-in-the-loop (HIL) simulation has proven to be an effective method for validating and de-risking power system equipment in highly realistic, flexible, and repeatable conditions. Controller hardware-in-the-loop (CHIL) and power hardware-in-the-loop (PHIL) are the two main HIL simulation methods used in industry and academia that contribute to system-level testing enhancement by exploiting the flexibility of digital simulations in testing actual controllers and power equipment. This book addresses recent advances in real-time HIL simulation in several domains (also in new and promising areas), including technique improvements to promote its wider use. It is composed of 14 papers dealing with advances in HIL testing of power electronic converters, power system protection, modeling for real-time digital simulation, co-simulation, geographically distributed HIL, and multiphysics HIL, among other topics.

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Keywords

  • CHIL
  • co-simulation
  • Control
  • control and protection
  • Control HIL (CHIL)
  • DC microgrid
  • design methodology
  • distributed energy resources
  • distribution system
  • DPT
  • dynamic performance test (DPT)
  • dynamic phasors
  • EMT
  • energy residual
  • energy-based metric
  • extremum seeking control
  • field testing
  • FPGA
  • frequency stability margin
  • geographically distributed real-time simulation
  • geographically distributed simulations
  • grid-forming converter
  • hardware in the loop
  • hardware-in-the-loop
  • Hardware-in-the-Loop (HIL)
  • hardware-in-the-loop simulation (HILS)
  • hardware-in-the-loop testing
  • HIL
  • holistic testing
  • hybrid simulation
  • hydro-electric plant
  • integrated laboratories
  • intelligent electronic device
  • inverter-dominated grids
  • inverters
  • lab testing
  • LabVIEW
  • large-scale power system
  • marine propulsion
  • model-based design
  • multi physics simulation
  • multi-rate simulation
  • particle swarm optimization
  • PHIL
  • power converters
  • Power electronics
  • power hardware-in-the-loop
  • Power HIL (PHIL)
  • power system protection and control
  • power system testing
  • power system transients
  • pre-certification
  • predictive control
  • proof of concept
  • PSIL
  • quasi-stationary
  • rate-of-change-of-frequency
  • reactive power support
  • real-time communication platform
  • real-time digital simulator
  • real-time hybrid-simulator (RTHS)
  • real-time simulation
  • real-time simulator (RTS)
  • reduced-scale model
  • remote power hardware-in-the-Loop
  • replica controller
  • shifted frequency analysis
  • ship dynamic
  • shipboard power systems
  • simulation fidelity
  • Smart Grids
  • Standards
  • state estimation
  • TCSC
  • Technology, engineering, agriculture
  • Technology: general issues
  • Testing
  • testing and validation
  • testing of replicas
  • testing of smart grid technologies
  • under-frequency load shedding
  • variable speed operation
  • voltage regulation
  • volt–VAR
  • ‘Hill Charts’

Links

DOI: 10.3390/books978-3-0365-1215-0

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