Projects per year
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.
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.
Original language | English |
---|---|
Number of pages | 15 |
Journal | IEEE Transactions on Power Systems |
Publication status | Accepted/In press - 22 Jul 2022 |
Keywords
- accuracy
- geographically distributed simulations
- power hardware in the loop
Fingerprint
Dive into the research topics of 'Applicability of geographically distributed simulations'. Together they form a unique fingerprint.Projects
- 1 Finished
-
ERIGRID ll_ European Research Infrastructure supporting Smart Grid and Smart Energy Systems Research, Technology Development (H2020 INFRA IA)
Burt, G. (Principal Investigator), Abdulhadi, I. F. (Co-investigator), Coffele, F. (Co-investigator) & Syed, M. H. (Co-investigator)
European Commission - Horizon Europe + H2020
1/04/20 → 30/09/24
Project: Research
Equipment
-
Dynamic Power Systems Laboratory
Burt, G. (Manager)
Electronic And Electrical EngineeringFacility/equipment: Facility
-
Emerging Power Systems Controls and the Challenges of Trusted Validation
Burt, G. (Invited speaker) & Feng, Z. (Contributor)
16 Jul 2023 → 20 Jul 2023Activity: Talk or presentation types › Invited talk
-
Open Challenges for Research Infrastructures to Support Grid Transition at Pace
Syed, M. H. (Speaker)
25 Oct 2022Activity: Talk or presentation types › Invited talk
-
Complex Power and Energy Systems Validation through Interconnection of Geographically Distributed Research Laboratories
Syed, M. H. (Speaker)
18 Jul 2022Activity: Talk or presentation types › Invited talk