Reactive power pricing to improve technical performance and operation of the distribution network

Bagheri, Mahdi; Eslami, Reza

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Iranian Electric Industry Journal of Quality and Productivity

نشریه علمی- پژوهشی کیفیت و بهره وری صنعت برق ایران

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Volume 12, Issue 4 (12-2023)

ieijqp 2023, 12(4): 46-55

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Reactive power pricing to improve technical performance and operation of the distribution network

Mahdi Bagheri¹

, Reza Eslami ^*

1- Sahand university of technology

Abstract: (492 Views)

Reactive power has countless benefits for power systems, which are called reactive power sub-services. One of these services is voltage control. The main goals in this research are to find the suitable price for reactive power and set the voltage of the buses in the allowed range and at the same time consider the suitable amount of reactive power in the generation buses as a reserve for technical and voltage support in the power system. In order to optimize the objective functions, the gray wolf optimization algorithm has been used and 33 bus radial distribution system has been considered and it has been assumed that the load of the power system changes during 24 hours and it is assumed that in this distribution network, generators are placed in some buses. The simulation results show that in addition to the cost of reactive power being minimized, a suitable amount of reactive power is also stored in the generation buses and the voltage deviations of the buses are also minimized.

Keywords: Reactive power market, reserve reactive power, optimization, voltage regulation, gray wolf optimization algorithm

Full-Text [PDF 1534 kb] (68 Downloads)

Type of Study: Research |
Received: 2023/07/10 | Accepted: 2023/09/30 | Published: 2023/12/23

References

1. [1] Zhongming, X.; Bolong, S.; Chang, W.; Yongsheng, X.; Zhen, L.; Suirong, L. "Multi-objective reactive power optimization model based on ancillary services pricing"; 2020 International Conference on Electrical Engineering and Control Technologies (CEECT), 2020, 1-5. [DOI:10.1109/CEECT50755.2020.9298618]

2. [2] Stekli, J.; Bai, L.; Cali, U. "Pricing for reactive power and ancillary services in distribution electricity markets"; 2021 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT), 2021, 1-5. [DOI:10.1109/ISGT49243.2021.9372202]

3. [3] Yang, Q.; Junqiang, W.; Leiyang, S. "Optimal scheduling of distribution network considering reactive power auxiliary service in market environment"; 18th International Conference on AC and DC Power Transmission (ACDC 2022), 2022, 1381-7. [DOI:10.1049/icp.2022.1416]

4. [4] Edmonds, L.; Faqiry, MN.; Wu, H.; Palani, A. "Three-phase distribution locational marginal pricing to manage unbalanced variable renewable energy"; 2020 IEEE Power & Energy Society General Meeting (PESGM), 2020, 1-5. [DOI:10.1109/PESGM41954.2020.9281895]

5. [5] Jiang, M.; Guo, Q.; Sun, H.; Ge, H. "Leverage reactive power ancillary service under high penetration of renewable energies: An incentive-compatible obligation-based market mechanism"; IEEE Trans. Power. Syst. 2021, 37, 2919-33. [DOI:10.1109/TPWRS.2021.3125093]

6. [6] Wang, J.; Xu, J.; Ke, D.; Wang, J.; Liu, D.; Liu, N. "Market Control Based for Congestion Management and Voltage Support in Distribution Network"; 2022 5th International Conference on Energy, Electrical and Power Engineering (CEEPE), 2022, 563-8. [DOI:10.1109/CEEPE55110.2022.9783407]

7. [7] Jay, D.; Swarup, KS. "Game theoretical approach to novel reactive power ancillary service market mechanism"; IEEE Trans. Power. Syst. 2020, 36, 1298-308. [DOI:10.1109/TPWRS.2020.3019786]

8. [8] Mieth, R.; Dvorkin, Y. "Distribution electricity pricing under uncertainty"; IEEE Trans. Power. Syst. 2019, 35, 2325-38. [DOI:10.1109/TPWRS.2019.2954971]

9. [9] Afandi I.; Agalgaonkar, A.; Perera, S. "Market Structure for enabling volt/var control in australian distribution networks: A practical perspective"; 2020 19th International Conference on Harmonics and Quality of Power (ICHQP), 2020, 1-6. [DOI:10.1109/ICHQP46026.2020.9177936]

10. [10] Yu, Y.; Hou, Q.; Ge, Y.; Liu, G.; Zhang, N. "A linear LMP model for active and reactive power with power loss"; 2019 IEEE Sustainable Power and Energy Conference (iSPEC), 2019, 1699-704. [DOI:10.1109/iSPEC48194.2019.8975321]

11. [11] Holland, H. "Genetic algorithms"; Sci. Am. 1992, 267, 66-72. [DOI:10.1038/scientificamerican0792-66]

12. [12] Storn, R.; Price K. "Differential evolution-a simple and efficient heuristic for global optimization over continuous spaces"; J. Glob. Optim. 1997, 11, 341-59. [DOI:10.1023/A:1008202821328]

13. [13] Geem, ZW.; Kim, JH.; Loganathan, GV. "A new heuristic optimization algorithm: harmony search"; Simulation, 2001, 76, 60-8. [DOI:10.1177/003754970107600201]

14. [14] Kennedy, J.; Eberhart, R. "Particle swarm optimization". Proceedings of ICNN'95-international conference on neural networks, 1995, 1942-8.

15. [15] Mirjalili, S.; Mirjalili, SM.; Lewis, A. "Grey Wolf Optimizer" Adv. Eng. Softw. 2014, 69, 46-61. [DOI:10.1016/j.advengsoft.2013.12.007]

16. [16] Emary, E.; Zawbaa, HM.; Hassanien, AE. "Binary grey wolf optimization approaches for feature selection"; Neurocomputing. 2016, 172, 371-81. [DOI:10.1016/j.neucom.2015.06.083]

17. [17] Rios, LM.; Sahinidis, NV. "Derivative-free optimization: a review of algorithms and comparison of software implementations"; J Glob Optim. 2013, 56, 1247-93. [DOI:10.1007/s10898-012-9951-y]

18. [18] Agalgaonkar, YP.; Pal, BC.; Jabr, RA. "Distribution voltage control considering the impact of PV generation on tap changers and autonomous regulators"; IEEE Trans. Power. Syst. 2013, 29, 182-92. [DOI:10.1109/TPWRS.2013.2279721]

19. [19] Mohanty, S.; Subudhi B.; Ray PK. "A new MPPT design using grey wolf optimization technique for photovoltaic system under partial shading conditions"; IEEE Trans Sustain Energy. 2015, 7, 181-8. [DOI:10.1109/TSTE.2015.2482120]

20. [20] Sharma, S.; Bhattacharjee, S.; Bhattacharya A. "Grey wolf optimisation for optimal sizing of battery energy storage device to minimise operation cost of microgrid"; IET Gener. Transm. Distrib. 2016, 10, 625-37. [DOI:10.1049/iet-gtd.2015.0429]

21. [21] Bhattacharya, K.; Zhong J. "Reactive power as an ancillary service"; IEEE Trans. Power. Syst. 2001, 16, 294-300. [DOI:10.1109/59.918301]

22. [22] Jay, D.; Swarup, KS. "Value-Based Real Time Reactive Power Pricing Model Considering Voltage Security and Reserve Requirement"; 2019 Modern Electric Power Systems (MEPS), 2019, 1-6. [DOI:10.1109/MEPS46793.2019.9395050]

23. [23] "National Grid Load Profiles", 2016, Available at: https://www9.nationalgridus.com/niagaramohawk/business/rates/5_load_profile.asp (Accessed on 03 Apr 2016).

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Bagheri M, Eslami R. Reactive power pricing to improve technical performance and operation of the distribution network. ieijqp 2023; 12 (4) :46-55
URL: http://ieijqp.ir/article-1-968-en.html

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