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Electrical Engineering
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16-06-2024 | Original Paper

Increasing efficiency and cost-effectiveness through optimizing the interaction between energy hub systems and distribution networks in modern energy distribution networks

Authors: Wenlong Li, Baoxin Yu, Dongyang Chen, Jiaji Li, Gefei Xia

Published in: Electrical Engineering | Issue 1/2025

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Abstract

The article delves into the optimization of energy hub systems (EHSs) in modern distribution networks, highlighting the potential of strategic energy trading and integration to enhance efficiency and cost-effectiveness. It introduces a pioneering multi-follower two-level optimization framework that facilitates optimal energy exchange strategies among various stakeholders, including distribution network operators and locally interconnected EHSs. The proposed model leverages linearized Karush–Kuhn–Tucker (KKT) optimality conditions and a modified Archimedes optimization algorithm to derive feasible solutions. The study also explores the benefits of local energy communities and power trading among EHSs, demonstrating significant potential for system efficiency and flexibility. Through a comprehensive case study and sensitivity analysis, the research underscores the critical role of renewable energy integration in achieving environmental sustainability and economic benefits. The findings highlight the importance of strategic planning and innovative optimization techniques in shaping the future of energy systems.
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Literature
1.
Majidi M, Zare K (2018) Integration of smart energy hubs in distribution networks under uncertainties and demand response concept. IEEE Trans Power Syst 34(1):566–574CrossRefMATH
2.
Jin X et al (2016) Optimal day-ahead scheduling of integrated urban energy systems. Appl Energy 180:1–13CrossRefMATH
3.
Kharrich M et al (2023) An effective design of hybrid renewable energy system using an improved archimedes optimization algorithm: a case study of Farafra, Egypt. Energy Conver Manag 283:116907CrossRefMATH
4.
Majidi M, Mohammadi-Ivatloo B, Anvari-Moghaddam A (2019) Optimal robust operation of combined heat and power systems with demand response programs. Appl Therm Eng 149:1359–1369CrossRefMATH
5.
Mirzapour-Kamanaj A et al (2020) Optimal strategic coordination of distribution networks and interconnected energy hubs: a linear multi-follower bi-level optimization model. Int J Electr Power Energy Syst 119:105925CrossRefMATH
6.
Abedinia O, Ghasemi-Marzbali A, Nurmanova V, Bagheri M (2021) Optimal strategy for bidding in deregulated-structure of electricity market: a competitive model. In: 2021 IEEE international conference on environment and electrical engineering and 2021 IEEE industrial and commercial power systems Europe (EEEIC/I&CPS Europe), IEEE, pp 1–5
7.
Zhang X, Che L, Shahidehpour M, Alabdulwahab AS, Abusorrah A (2015) Reliability-based optimal planning of electricity and natural gas interconnections for multiple energy hubs. IEEE Trans Smart Grid 8(4):1658–1667CrossRef
8.
Wang Q et al (2024) Day-Ahead scheduling of rural integrated energy systems based on distributionally robust optimization theory. Appl Therm Eng 246:123001CrossRefMATH
9.
Nurmanova V et al. (2009) Distribution transformer frequency response analysis: behavior of different statistical indices during inter-disk fault. In: 2019 IEEE international conference on environment and electrical engineering and 2019 IEEE industrial and commercial power systems europe (EEEIC/I&CPS Europe), IEEE
10.
Li Y et al (2018) Optimal scheduling of isolated microgrid with an electric vehicle battery swapping station in multi-stakeholder scenarios: a bi-level programming approach via real-time pricing. Appl Energy 232:54–68CrossRefMATH
11.
12.
Kim HY, Kim MK, Kim HJ (2019) Optimal operational scheduling of distribution network with microgrid via bi-level optimization model with energy band. Appl Sci 9(20):4219CrossRefMATH
13.
Huo D, Le Blond S, Gu C, Wei W, Yu D (2018) Optimal operation of interconnected energy hubs by using decomposed hybrid particle swarm and interior-point approach. Int J Electr Power Energy Syst 95:36–46CrossRef
14.
Moeini-Aghtaie M, Abbaspour A, Fotuhi-Firuzabad M, Hajipour E (2013) A decomposed solution to multiple-energy carriers optimal power flow. IEEE Trans Power Syst 29(2):707–716CrossRefMATH
15.
Bahrami S, Sheikhi A (2015) From demand response in smart grid toward integrated demand response in smart energy hub. IEEE Trans Smart Grid 7(2):650–658MATH
16.
Sheikhi A, Rayati M, Bahrami S, Ranjbar AM, Sattari S (2015) A cloud computing framework on demand side management game in smart energy hubs. Int J Electr Power Energy Syst 64:1007–1016CrossRef
17.
Sheikhi A, Bahrami S, Ranjbar AM (2015) An autonomous demand response program for electricity and natural gas networks in smart energy hubs. Energy 89:490–499CrossRefMATH
18.
Maroufmashat A et al (2015) Modeling and optimization of a network of energy hubs to improve economic and emission considerations. Energy 93:2546–2558CrossRefMATH
19.
Kamyab F, Bahrami S (2016) Efficient operation of energy hubs in time-of-use and dynamic pricing electricity markets. Energy 106:343–355CrossRefMATH
20.
Bidgoli MM et al (2021) Stochastic electrical and thermal energy management of energy hubs integrated with demand response programs and renewable energy: a prioritized multi-objective framework. Electr Power Syst Res 196:107183CrossRefMATH
21.
Karimi H, Bidgoli MM, Jadid S (2023) Optimal electrical, heating, cooling, and water management of integrated multi-energy systems considering demand-side management. Electr Power Syst Res 220:109353CrossRefMATH
22.
Bidgoli MM et al (2023) Multi-criteria dispatch optimization of a community energy network with desalination: insights for trading off cost and security of supply. Heliyon 9:e20533CrossRefMATH
23.
Shademan M, Karimi H, Jadid S (2023) Safe resource management of non-cooperative microgrids based on deep reinforcement learning. Eng Appl Artif Intell 126:106865CrossRefMATH
24.
Wu L et al (2024) Decomposed particle swarm optimization for optimal scheduling in energy hub considering battery lifetime. Eng Appl Artif Intell 133:108252CrossRefMATH
25.
Zhu X, Zeng B, Dong H, Liu J (2020) An interval-prediction based robust optimization approach for energy-hub operation scheduling considering flexible ramping products. Energy 194:116821CrossRef
26.
Geng S, Vrakopoulou M, Hiskens IA (2020) Optimal capacity design and operation of energy hub systems. Proc IEEE 108(9):1475–1495CrossRefMATH
27.
Roustai M, Rayati M, Sheikhi A, Ranjbar A (2018) A scenario-based optimization of smart energy hub operation in a stochastic environment using conditional-value-at-risk. Sustain cities Soc 39:309–316CrossRef
28.
Demissie A, Zhu W, Belachew CT (2017) A multi-objective optimization model for gas pipeline operations. Comput Chem Eng 100:94–103CrossRefMATH
29.
Eladl AA, El-Afifi MI, Saeed MA, El-Saadawi MM (2020) Optimal operation of energy hubs integrated with renewable energy sources and storage devices considering CO2 emissions. Int J Electr Power Energy Syst 117:105719CrossRef
30.
Li Y, Li Z, Wen F, Shahidehpour M (2018) Privacy-preserving optimal dispatch for an integrated power distribution and natural gas system in networked energy hubs. IEEE Trans Sustain Energy 10(4):2028–2038CrossRefMATH
31.
Pang J-S, Fukushima M (2005) Quasi-variational inequalities, generalized Nash equilibria, and multi-leader-follower games. Comput Manag Sci 2(1):21–56MathSciNetCrossRefMATH
Metadata
Title
Increasing efficiency and cost-effectiveness through optimizing the interaction between energy hub systems and distribution networks in modern energy distribution networks
Authors
Wenlong Li
Baoxin Yu
Dongyang Chen
Jiaji Li
Gefei Xia
Publication date
16-06-2024
Publisher
Springer Berlin Heidelberg
Published in
Electrical Engineering / Issue 1/2025
Print ISSN: 0948-7921
Electronic ISSN: 1432-0487
DOI
https://doi.org/10.1007/s00202-024-02519-0

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