Litcius/Paper detail

Applicability of Geographically Distributed Simulations

Mazheruddin Syed, Tran The Hoang, Alkistis Kontou, Alexandros Paspatis, Graeme Burt, Quoc Tuan Tran, Efrén Guilló-Sansano, Steffen Vogel, Ha Thi Nguyen, Nikos Hatziargyriou

2022IEEE Transactions on Power Systems20 citationsDOIOpen Access PDF

Abstract

Geographically distributed simulations (GDS) overcome the inherent limitations in capabilities of single research infrastructure to accurately represent large-scale complex power and energy systems within representative operating environments in real-time. The feasibility of GDS has been proven, however, there is a lack of confidence in its adoption owing to limited evidence of its stability and accuracy that ascertain its practical applicability. This paper presents detailed small signal stability models for GDS setups with two interface signals transformations. The models have been validated by empirical analysis and used for determining the boundaries for stable operation of GDS setups. For the common region of stability of the two transformations considered, accuracy analysis presented offers insights for their selection. This advancement, thereby, enables realisation of experimental setups that can cater for the growing need to design and validate operational schemes that ensure robust and resilient operation of critical national infrastructure.

Topics & Concepts

Computer scienceStability (learning theory)RealisationInterface (matter)Scale (ratio)Distributed computingElectric power systemReliability engineeringPower (physics)Industrial engineeringEngineeringParallel computingBubbleMaximum bubble pressure methodPhysicsQuantum mechanicsMachine learningReal-time simulation and control systemsSimulation Techniques and ApplicationsHVDC Systems and Fault Protection