Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains

Lahanda Purage Mohasha Isuru Sampath; Yu Weng; Franz Erich Wolter; Hoay Beng Gooi; Hung Dinh Nguyen

doi:10.1016/j.epsr.2022.108591

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Originalsprache	Englisch
Aufsatznummer	108591
Seitenumfang	8
Fachzeitschrift	Electric power systems research
Jahrgang	212
Frühes Online-Datum	28 Juli 2022
Publikationsstatus	Veröffentlicht - Nov. 2022

Abstract

Peer-to-peer (P2P) energy trading is an important energy market concept that improves the utilization of distributed energy resources and promotes the integration of energy storage technologies in distribution grids. It is challenging to satisfy the grid operational feasibility under such decentralized energy markets while enabling fully autonomous prosumer operations. This work develops a self-validation mechanism based on polytopic injection domains that define the allowed/safe region of prosumer power injections, ensuring feasible operation of the distribution grid. The allowed polytopic injection domains are constructed effectively by leveraging a newly developed feasibility criterion based on Kantorovich's fixed-point theorem. Therewith, we design a novel P2P energy market framework supporting the autonomous participation of prosumers and propose a nodal aggregator model to validate the aggregated prosumer power injections to attest a voltage-feasible market-clearing.

ASJC Scopus Sachgebiete

Energie (insg.)
Energieanlagenbau und Kraftwerkstechnik
Ingenieurwesen (insg.)
Elektrotechnik und Elektronik

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Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains. / Sampath, Lahanda Purage Mohasha Isuru; Weng, Yu; Wolter, Franz Erich et al.
in: Electric power systems research, Jahrgang 212, 108591, 11.2022.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Sampath, LPMI, Weng, Y, Wolter, FE, Gooi, HB & Nguyen, HD 2022, 'Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains', Electric power systems research, Jg. 212, 108591. https://doi.org/10.1016/j.epsr.2022.108591, https://doi.org/10.1016/j.epsr.2023.109198

Sampath, L. P. M. I., Weng, Y., Wolter, F. E., Gooi, H. B., & Nguyen, H. D. (2022). Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains. Electric power systems research, 212, Artikel 108591. https://doi.org/10.1016/j.epsr.2022.108591, https://doi.org/10.1016/j.epsr.2023.109198

Sampath LPMI, Weng Y, Wolter FE, Gooi HB, Nguyen HD. Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains. Electric power systems research. 2022 Nov;212:108591. Epub 2022 Jul 28. doi: 10.1016/j.epsr.2022.108591, 10.1016/j.epsr.2023.109198

Sampath, Lahanda Purage Mohasha Isuru ; Weng, Yu ; Wolter, Franz Erich et al. / Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains. in: Electric power systems research. 2022 ; Jahrgang 212.

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abstract = "Peer-to-peer (P2P) energy trading is an important energy market concept that improves the utilization of distributed energy resources and promotes the integration of energy storage technologies in distribution grids. It is challenging to satisfy the grid operational feasibility under such decentralized energy markets while enabling fully autonomous prosumer operations. This work develops a self-validation mechanism based on polytopic injection domains that define the allowed/safe region of prosumer power injections, ensuring feasible operation of the distribution grid. The allowed polytopic injection domains are constructed effectively by leveraging a newly developed feasibility criterion based on Kantorovich's fixed-point theorem. Therewith, we design a novel P2P energy market framework supporting the autonomous participation of prosumers and propose a nodal aggregator model to validate the aggregated prosumer power injections to attest a voltage-feasible market-clearing.",

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AU - Weng, Yu

AU - Wolter, Franz Erich

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Research@Leibniz University

Voltage feasibility-constrained peer-to-peer energy trading with polytopic injection domains

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