S.Ye. Saukh
Èlektron. model. 2023, 45(3):03-10
https://doi.org/10.15407/emodel.45.03.003
ABSTRACT
To support the strong sustainability of the energy sector in the conditions of terrorist and military threats, the concept of structural variability of the electric power industry is proposed. Structural variability is defined as the power system's ability to form such a number of subsystems and electrical connections between them that enables the operator to control the structure of the system and, in this way, ensure the hard stability of the power sector in conditions of purposeful destructive actions. We proposed a model of distributed market management of a structurally variable electric power system. The model is based on the decomposition of a single liberalized market into an upper-level market and regional markets interacting with each other according to uniform rules.
KEYWORDS
electric power industry, hard sustainability, structural variability, market decomposition.
REFERENCES
- Stability of energy systems. Guidelines. Kyiv: OEP "GRIFRE". 2002, 23 p. (Ukr)
- Ensuring the stability of energy systems and their associations. / Butkevich O.F., Kyiv: Instytut Elektrodynamiky Natsionalnoi Akademii Nauk Ukrainy. 2018, 320 p. (Ukr)
- Transmission System Code: Resolution of the NKREKP. No. 309. 14.03.2018. as of04.2023. URL: https://zakon.rada.gov.ua/laws/show/v0309874-18#Text (date of access: 11.05.2023) (Ukr)
- Power sector resilience planning / S. Stout et al. U.S. Department of Energy’s NREL and USAID. 2019, 82 p.
- Stirling A. From Sustainability, through Diversity to Transformation: towards more refle-xive governance of technological vulnerability. Vulnerability in Technological Cultures: new directions in research and governance. / ed. by A. Hommels, J. Mesman, W. Bijke. MIT Press. 2014, р. 305–332.
- Mitoulis S.-A., Argyroudis S., Panteli M., Fuggini C., Valkaniotis S., Hynes W., Linkov I. Conflict-resilience framework for critical infrastructure peacebuilding. Sustainable Cities and Society. 2023, 91, 104405, 19 p. URL:
https://doi.org/10.1016/j.scs.2023.104405 - Saukh S., Borysenko A. Modelling of market equilibrium on the basis of Smart Grid market system decomposition. Energy Smart Systems. Proceedings of the 2020 IEEE 7th International Conference. Kyiv, May 12-14, 2020. / Institute of Energy Saving and Energy Management, Igor Sikorsky Kyiv Polytechnic Institute, 2020. р. 358-362. URL:
https://doi.org/10.1109/ESS50319.2020.9160333 - Saukh S.Ye., Borysenko A.V. Mathematical Model of a Local Grid with Small Modular Reactor NPPs. Nuclear & Radiation Safety. 2022. Vol. 94, no 2, р. 44–52. URL:
https://doi.org/10.32918/nrs.2022.2(94).05