A multi-stage joint planning and operation model for energy hubs considering integrated demand response programs
Mansouri, Seyed Amir; Ahmarinejad, Amir; Sheidaei, Farnaz; Javadi, Mohammad Sadegh; Rezaee, Jordehi Ahmad; Esmaeel, Ali; Catalao, Joao P.S. (2022-03-15)
Post-print / Final draft
Mansouri, Seyed Amir
Ahmarinejad, Amir
Sheidaei, Farnaz
Javadi, Mohammad Sadegh
Rezaee, Jordehi Ahmad
Esmaeel, Ali
Catalao, Joao P.S.
15.03.2022
International Journal of Electrical Power & Energy Systems
140
Elsevier
School of Energy Systems
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2022040627298
https://urn.fi/URN:NBN:fi-fe2022040627298
Tiivistelmä
Energy hub systems improve energy efficiency and reduce emissions due to the coordinated operation of different infrastructures. Given that these systems meet the needs of customers for different energies, their optimal design and operation is one of the main challenges in the field of energy supply. Hence, this paper presents a two-stage stochastic model for the integrated design and operation of an energy hub in the presence of electrical and thermal energy storage systems. As the electrical, heating, and cooling loads, besides the wind turbine’s (WT’s) output power, are associated with severe uncertainties, their impacts are addressed in the proposed model. Besides, demand response (DR) and integrated demand response (IDR) programs have been incorporated in the model. Furthermore, the real-coded genetic algorithm (RCGA), and binary-coded genetic algorithm (BCGA) are deployed to tackle the problem through continuous and discrete methods, respectively. The simulation results show that considering the uncertainties leads to the installation of larger capacities for assets and thus a 8.07% increase in investment cost. The results also indicate that the implementation of shiftable IDR program modifies the demand curve of electrical, cooling and heating loads, thereby reducing operating cost by 15.1%. Finally, the results substantiate that storage systems with discharge during peak hours not only increase system flexibility but also reduce operating cost.
Lähdeviite
Mansouri, S.A., Ahmarinejad, A., Sheidaei, F., Javadi, M.S., Rezaee Jordehi, A., Esmaeel Nezhad, A., Catalão, J.P.S. (2022). A multi-stage joint planning and operation model for energy hubs considering integrated demand response programs. International Journal of Electrical Power & Energy Systems, vol. 140. DOI: 10.1016/j.ijepes.2022.108103
Kokoelmat
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