تعداد نشریات | 32 |
تعداد شمارهها | 735 |
تعداد مقالات | 7,132 |
تعداد مشاهده مقاله | 11,592,598 |
تعداد دریافت فایل اصل مقاله | 7,946,886 |
Multi-objective ORPD Considering Different Load Models for Active Distribution Networks | ||
International Journal of Industrial Electronics Control and Optimization | ||
مقاله 5، دوره 4، شماره 2، تیر 2021، صفحه 191-210 اصل مقاله (1.44 M) | ||
نوع مقاله: Research Articles | ||
شناسه دیجیتال (DOI): 10.22111/ieco.2020.33855.1261 | ||
نویسندگان | ||
Saman Hosseini-Hemati1؛ Shahram Karimi* 2؛ Gholam Hossein Sheisi1 | ||
1Electrical Engineering Department, Engineering Faculty, Razi University, Kermanshah, | ||
2Department of Electrical Engineering, Razi University, Kermanshah, Iran | ||
چکیده | ||
Secure and economical operation of distribution networks needs the management of reactive power resources. Optimal Reactive Power Dispatch (ORPD) optimally manages the reactive power scheduling of generators and distribution generations as well as the Reactive Power Compensation (RPC) devices. This paper investigates the effect of load models on the multi-objective ORPD problem in active distribution networks. Moreover, a modified Grey Wolf Optimizer (GWO), which is called in this paper as Civilized GWO (CGWO), is introduced to solve the ORPD problem. The proposed strategy including multi-objective function, various load models, DG’s reactive power, RPCs and the introduced CGWO, is tested on standard IEEE 33- and 69-bus distribution systems. The obtained results indicate the load models have significant impact on the cost function amount. Moreover, the performance of the proposed algorithm is evaluated using ten standard benchmark functions. The optimization results demonstrate the robustness of the introduced optimization algorithm and its ability in finding the better solutions compared to the Particle Swarm Optimization (PSO), Exchange Market Algorithm (EMA), and original GWO. | ||
کلیدواژهها | ||
Civilized grey wolf optimizer؛ load modelling؛ multi-objective optimization؛ optimal reactive power dispatch | ||
مراجع | ||
[1] Shefaei A, Vahid-Pakdel MJ, Mohammadi-ivatloo B. “Application of a hybrid evolutionary algorithm on reactive power compensation problem of distribution network”. Comput Electr Eng 2018;72:125–136. [2] OualidMedani K ben, Sayah S, Bekrar A. “Whale optimization algorithm based optimal reactive power dispatch: A case study of the Algerian power system”. Electr Power Syst Res 2017:In Press. [3] Atwa YM, El-Saadany EF, Salama MMA, Seethapathy R. “Optimal renewable resources mix for distribution system energy loss minimization”. IEEE Trans Power Syst 2010;25:360–370. [4] Dixit M, Kundu P, Jariwala HR. “Optimal integration of shunt capacitor banks in distribution networks for assessment of techno-economic asset”. Comput Electr Eng 2018;71:331–345. [5] Barati H, Shahsavari M. “Simultaneous optimal placement and sizing of distributed generation resources and shunt capacitors in radial distribution systems using crow search algorithm”. Int J Ind Electron Control Optim 2018;1:27–40. [6] Cheng S, Chen M-Y. “Multi-objective reactive power optimization strategy for distribution system with penetration of distributed generation”. Int J Electr Power Energy Syst 2014;62:221–228. [7] Wang Y, Zhang P, Li W, Xiao W, Abdollahi A. “Online overvoltage prevention control of photovoltaic generators in microgrids”. IEEE Trans Smart Grid 2012;3:2071–2078. [8] Granville S. “Optimal reactive dispatch through interior point methods”. IEEE Trans Power Syst 1994;9:136– 146. [9] Quintana VH, Santos-Nieto M. “Reactive-power dispatch by successive quadratic programming”. IEEE Trans Energy Convers 1989;4:425–435. [10] Granada M, Rider MJ, Mantovani JRS, Shahidehpour M. “A decentralized approach for optimal reactive power dispatch using a Lagrangian decomposition method”. Electr Power Syst Res 2012;89:148–156. [11] Shaw B, Mukherjee V, Ghoshal SP. “Solution of reactive power dispatch of power systems by an opposition-based gravitational search algorithm”. Int J Electr Power Energy Syst 2014;55:29–40. [12] Ayan K, Kılıç U. “Artificial bee colony algorithm solution for optimal reactive power flow”. Appl Soft Comput 2012;12:1477–1482. [13] Ettappan M, Vimala V, Ramesh S, Kesavan VT. “Optimal reactive power dispatch for real power loss minimization and voltage stability enhancement using Artificial Bee Colony Algorithm”. Microprocess Microsyst 2020;76. [14] Mugemanyi S, Qu Z, Rugema FX, Dong Y, Bananeza C, Wang L. “Optimal reactive power dispatch using chaotic bat algorithm”. IEEE Access 2020;8:65830–65867. [15] Duman S, Sonmez Y, Guvenc U, Yorukeren N. “Optimal reactive power dispatch using a gravitational search algorithm”. IET Gener Transm Distrib 2012;6:563–576. [16] Ghasemi M, Taghizadeh M, Ghavidel S, Aghaei J, Abbasian A. “Solving optimal reactive power dispatch problem using a novel teaching–learning-based optimization algorithm”. Eng Appl Artif Intell 2015;39:100–108. [17] Sulaiman MH, Mustaffa Z, Mohamed MR, Aliman O. “Using the gray wolf optimizer for solving optimal reactive power dispatch problem”. Appl Soft Comput 2015;32:286–292. [18] Raj S, Bhattacharyya B. “Reactive power planning by opposition-based grey wolf optimization method”. Int Trans Electr Energy Syst 2018;28:1–29. [19] Mukherjee A, Mukherjee V. “Solution of optimal reactive power dispatch by chaotic krill herd algorithm”. IET Gener Transm Distrib 2015;9:2351–2362. [20] Basu M. “Quasi-oppositional differential evolution for optimal reactive power dispatch”. Int J Electr Power Energy Syst 2016;78:29–40. [21] Basu M. “Multi-objective optimal reactive power dispatch using multi-objective differential evolution”. Int J Electr Power Energy Syst 2016;82:213–224. [22] Rajan A, Malakar T. “Exchange market algorithm based optimum reactive power dispatch”. Appl Soft Comput 2016;43:320–336. [23] Abaci K, Yamaçli V. “Optimal reactive-power dispatch using differential search algorithm”. Electr Eng 2017;99:213–225. [24] Khazali AH, Kalantar M. “Optimal reactive power dispatch based on harmony search algorithm”. Int J Electr Power Energy Syst 2011;33:684–692. [25] Zhou B, Chan KW, Yu T, Wei H, Tang J. “Strength pareto multigroup search optimizer for multiobjective optimal reactive power dispatch”. IEEE Trans Ind Informatics 2014;10:1012–1022. [26] Shaheen AM, El-Sehiemy RA, Farrag SM. “Integrated strategies of backtracking search optimizer for solving reactive power dispatch problem”. IEEE Syst J 2018;12:424–433. [27] Mouassa S, Bouktir T, Salhi A. “Ant lion optimizer for solving optimal reactive power dispatch problem in power systems”. Eng Sci Technol an Int J 2017;20:885– 895. [28] Bingane C, Anjos MF, Digabel SL. “Tight-and-cheap conic relaxation for the optimal reactive power dispatch problem”. IEEE Trans Power Syst 2019;Early Acce. [29] Davoodi E, Babaei E, Mohammadi-ivatloo B, Rasouli M. “A novel fast semidefinite programming-based approach for optimal reactive power dispatch”. IEEE Trans Ind Informatics 2019;Early Acce. [30] Tran HV, Pham TV, Pham LH, Le NT, Nguyen TT. “Finding optimal reactive power dispatch solutions by using a novel improved stochastic fractal search optimization algorithm”. TELKOMNIKA 2019;17:2517– 2526. [31] Li Y, Wang Y, Li B. “A hybrid artificial bee colony assisted differential evolution algorithm for optimal reactive power flow”. Int J Electr Power Energy Syst 2013;52:25–33. [32] Ghasemi M, Ghanbarian MM, Ghavidel S, Rahmani S, Moghaddam EM. “Modified teaching learning algorithm and double differential evolution algorithm for optimal reactive power dispatch problem: A comparative study”. Inf Sci (Ny) 2014;278:231–249. [33] Lenin K, Reddy BR, Suryakalavathi M. “Hybrid Tabu search-simulated annealing method to solve optimal reactive power problem”. Int J Electr Power Energy Syst 2016;82:87–91. [34] Shareef SKM, Rao RS. “Optimal reactive power dispatch under unbalanced conditions using hybrid swarm intelligence”. Comput Electr Eng 2018;69:183– 193. [35] Hongxin L, Yinhong L, Jinfu C. “Adaptive multiple evolutionary algorithms search for multi-objective optimal reactive power dispatch”. Int Trans Electr Energy Syst 2014;24:780–795. [36] Singh RP, Mukherjee V, Ghoshal SP. “Optimal reactive power dispatch by particle swarm optimization with an aging leader and challengers”. Appl Soft Comput 2015;29:298–309. [37] Zhang M, Li Y. “Multi-objective optimal reactive power dispatch of power systems by combining classification-based multi-objective evolutionary algorithm and integrated decision making”. IEEE Access 2020;8:38198–38209. [38] Ansari J, Gholami A, Kazemi A. “Holonic structure: a state-of-the-art control architecture based on multi-agent systems for optimal reactive power dispatch in smart grids”. IET Gener Transm Distrib 2015;9:1922–1934. [39] Zheng W, Wu W, Zhang B, Sun H, Liu Y. “A fully distributed reactive power optimization and control method for active distribution networks”. IEEE Trans Smart Grid 2016;7:1021–1033. [40] Naderi E, Narimani H, Fathi M, Narimani MR. “A novel fuzzy adaptive configuration of particle swarm optimization to solve large-scale optimal reactive power dispatch”. Appl Soft Comput 2017;53:441–456. [41] Ghasemi M, Ghavidel S, Ghanbarian MM, Habibi A. “A new hybrid algorithm for optimal reactive power dispatch problem with discrete and continuous control variables”. Appl Soft Comput 2014;22:126–140. [42] Chen G, Liu L, Zhang Z, Huang S. “Optimal reactive power dispatch by improved GSA-based algorithm with the novel strategies to handle constraints”. Appl Soft Comput 2017;50:58–70. [43] Jangir P, Parmar SA, Trivedi IN, Bhesdadiya RH. “A novel hybrid Particle Swarm Optimizer with multi verse optimizer for global numerical optimization and Optimal Reactive Power Dispatch problem”. Eng Sci Technol an Int J 2017;20:570–586. [44] Mehdinejad M, Mohammadi-Ivatloo B, Dadashzadeh-Bonab R, Zare K. “Solution of optimal reactive power dispatch of power systems using hybrid particle swarm optimization and imperialist competitive algorithms”. Int J Electr Power Energy Syst 2016;83:104–116. [45] Srivastava L, Singh H. “Hybrid multi-swarm particle swarm optimisation based multi-objective reactive power dispatch”. IET Gener Transm Distrib 2015;9:727–739. [46] Zhang J, Liu N, Lu X, Wu M. “Two-layer reactive power optimal dispatching model for high-voltage distribution network and application”. IEEE PES Asia-Pacific Power Energy Eng. Conf., Brisbane, Australia: 2015, p. 1–5. [47] Zhou H, Guo J, Zhou R, Gu K, Qian L. “Interior point method based reactive power optimization of active distribution network”. China Int. Conf. Electr. Distrib. (CICED 2016), 2016, p. 1–6. [48] Sheng W, Liu K, Pei H, Li Y, Jia D, Diao Y. “A fast reactive power optimization in distribution network based on large random matrix theory and data analysis”. Appl Sci 2016;6:1–19. [49] Varadarajan M, Swarup KS. “Differential evolution approach for optimal reactive power dispatch”. Appl Soft Comput 2008;8:1549–1561. [50] Singh D, Singh D, Verma KS. “Multiobjective optimization for DG planning with load models”. IEEE Trans Power Syst 2009;24:427–436. [51] Bhattacharya A, Roy PK. “Solution of multi-objective optimal power flow using gravitational search algorithm”. IET Gener Transm Distrib 2012;6:751–763. [52] Mirjalili S, Mirjalili SM, Lewis A. “Grey wolf optimizer”. Adv Eng Softw 2014;69:46–61. [53] Ghorbani N, Babaei E. “Exchange market algorithm”. Appl Soft Comput 2014;19:177–187. [54] MATPOWER package 2019. https://matpower.org/. [55] Baran ME, Wu FF. “Network reconfiguration in distribution systems for loss reduction and load balancing”. IEEE Trans Power Deliv 1989;4:1401– 1407. | ||
آمار تعداد مشاهده مقاله: 417 تعداد دریافت فایل اصل مقاله: 380 |