The Journal of Engineering (Apr 2019)
Banshee distribution network benchmark and prototyping platform for hardware-in-the-loop integration of microgrid and device controllers
- Reynaldo Salcedo,
- Edward Corbett,
- Christopher Smith,
- Erik Limpaecher,
- Raajiv Rekha,
- John Nowocin,
- Georg Lauss,
- Edwin Fonkwe,
- Murilo Almeida,
- Peter Gartner,
- Scott Manson,
- Bharath Nayak,
- Ivan Celanovic,
- Christian Dufour,
- M.Omar Faruque,
- Karl Schoder,
- Ron Brandl,
- Panos Kotsampopoulos,
- Thrung Ham Ha,
- Ali Davoudi,
- Ali Dehkordi,
- Kai Strunz
Affiliations
- Reynaldo Salcedo
- Massachusetts Institute of Technology: Lincoln Laboratory
- Edward Corbett
- Massachusetts Institute of Technology: Lincoln Laboratory
- Christopher Smith
- Massachusetts Institute of Technology: Lincoln Laboratory
- Erik Limpaecher
- Massachusetts Institute of Technology: Lincoln Laboratory
- Raajiv Rekha
- Massachusetts Institute of Technology: Lincoln Laboratory
- John Nowocin
- Massachusetts Institute of Technology: Lincoln Laboratory
- Georg Lauss
- Austrian Institute of Technology
- Edwin Fonkwe
- Typhoon HIL Inc., 15 Ward St, Somerville, MA
- Murilo Almeida
- Typhoon HIL Inc., 15 Ward St, Somerville, MA
- Peter Gartner
- Typhoon HIL Inc., 15 Ward St, Somerville, MA
- Scott Manson
- Schweitzer Engineering Laboratories
- Bharath Nayak
- Schweitzer Engineering Laboratories
- Ivan Celanovic
- Typhoon HIL Inc., 15 Ward St, Somerville, MA
- Christian Dufour
- OPAL-RT Technologies
- M.Omar Faruque
- Florida State University Center for Advanced Power Systems
- Karl Schoder
- Florida State University Center for Advanced Power Systems
- Ron Brandl
- Fraunhofer Institute for Energy Economics and Energy System Technology
- Panos Kotsampopoulos
- National Technical University of Athens
- Thrung Ham Ha
- Cummins Power Systems
- Ali Davoudi
- RTDS Technologies Inc.
- Ali Dehkordi
- The University of Texas at Arlington
- Kai Strunz
- Sustainable Electric Networks and Sources of Energy, Technische Universität Berlin
Abstract
This article provides a unique benchmark to integrate and systematically evaluate advanced functionalities of microgrid and downstream device controllers. The article describes Banshee, a real-life power distribution network. It also details a real-time controller hardware-in-the-loop (HIL) prototyping platform to test the responses of the controllers and verify decision-making algorithms. The benchmark aims to address power industry needs for a common basis to integrate and evaluate controllers for the overall microgrid, distributed energy resources (DERs), and protective devices. The test platform will accelerate microgrid deployment, enable standard compliance verification, and further develop and test controllers' functionalities. These contributions will facilitate safe and economical demonstrations of the state-of-the-possible while verifying minimal impact to existing electrical infrastructure. All aspects of the benchmark and platform development including models, configuration files, and documentation are publicly available via the electric power HIL controls collaborative (EPHCC).
Keywords
- distributed power generation
- power system interconnection
- decision making
- control engineering computing
- distribution networks
- smart power grids
- distributed energy resources
- power industry
- decision-making algorithms
- real-time controller hardware-in-the-loop prototyping platform
- real-life power distribution network
- downstream device controllers
- advanced functionalities
- unique benchmark
- hardware-in-the-loop integration
- distribution network benchmark
- electric power HIL
- platform development including models
- microgrid deployment
- test platform
- protective devices
