PDF(888 KB)
Interactive DE for solving combined security environmental economic dispatch considering FACTS technology
Belkacem MAHDAD, K. SRAIRI, B. TAREK
PDF(888 KB)
PDF(888 KB)
Interactive DE for solving combined security environmental economic dispatch considering FACTS technology
This paper presents an efficient interactive differential evolution (IDE) to solve the multi-objective security environmental/economic dispatch (SEED) problem considering multi shunt flexible AC transmission system (FACTS) devices. Two sub problems are proposed.The first one is related to the active power planning to minimize the combined total fuel cost and emissions, while the second is a reactive power planning (RPP) using multi shunt FACTS device based static VAR compensator (SVC) installed at specified buses to make fine corrections to the voltage deviation, voltage phase profiles and reactive power violation. The migration operation inspired from biogeography-based optimization (BBO) algorithm is newly introduced in the proposed approach, thereby effectively exploring and exploiting promising regions in a space search by creating dynamically new efficient partitions. This new mechanism based migration between individuals from different subsystems makes the initial partitions to react more by changing experiences. To validate the robustness of the proposed approach, the proposed algorithm is tested on the Algerian 59-bus electrical network and on a large system, 40 generating units considering valve-point loading effect. Comparison of the results with recent global optimization methods show the superiority of the proposed IDE approach and confirm its potential for solving practical optimal power flow in terms of solution quality and convergence characteristics.
optimal power flow (OPF) / economic dispatch / environment / differential evolution / migration operator / multi-objective / flexible AC transmission systems (FACTS) / static VAR compensator (SVC)
| [1] |
El-Keib A A, Ma H, Hart J L. Economic dispatch in view of the clean air act of 1990. IEEE Transactions on Power Systems, 1994, 9(2): 972-978
|
| [2] |
Talaq J H, El-Hawary F, El-Hawary M E. A summary of environmental and economic dispatch algorithms. IEEE Transactions on Power Systems, 1994, 9(3): 1508-1516
|
| [3] |
Güvenç U. Sِnmez Y, Duman S, Yِrükeren N. Combined economic and emission dispatch solution using gravitational search algorithm. Scientia Iranica, 2012, 19(6): 1754-1762
|
| [4] |
Mahdad B, Srairi K. A study on multi-objective optimal power flow under contingency using differential evolution. Journal of Electrical Engineering & Technology, 2013, 8(1): 53-63
|
| [5] |
Sttot B, Marinho J L. Linear programming for power system network security applications. IEEE Transactions on Power Apparatus and Systems, 1979, PAS-98(3): 837-848
|
| [6] |
Alsac O, Stott B. Optimal load flow with steady state security. IEEE Transactions on Power Apparatus and Systems, 1974, PAS-93(3): 745-751
|
| [7] |
Momoh J A, Zhu J Z. Improved interior point method for OPF problems. IEEE Transactions on Power Systems, 1999, 14(3): 1114-1120
|
| [8] |
Zehar K, Sayah S. Optimal power flow with environmental constraint using a fast successive linear programming algorithm: application to the algerian power system. Journal of Energy and Management, 2008, 49(11): 3362-3366
|
| [9] |
Pezzinia P, Gomis-Bellmunt O, Sudrià-Andreua A. Optimization techniques to improve energy efficiency in power systems. Renewable & Sustainable Energy Reviews, 2011, 15(4): 2029-2041
|
| [10] |
Frank S, Steponavice I, Rebennak S. Optimal power flow: a bibliographic survey I, formulations and deterministic methods. International Journal of Energy Systems, 2012, 3(3): 221-258
|
| [11] |
Lee J C, Lin W M, Liao G C, Tsao T P. Quantum genetic algorithm for dynamic economic dispatch with valve-point effects and including wind power system. International Journal of Electrical Power & Energy Systems, 2011, 33(2): 189-197
|
| [12] |
Hemamalini S, Simon S P. Dynamic economic dispatch using artificial immune system for units with valve-point effect. International Journal of Electrical Power & Energy Systems, 2011, 33(4): 868-874
|
| [13] |
Panigrahi B K, Pandi V R, Das S. Adaptive particle swarm optimization approach for static and dynamic economic load dispatch. Energy Conversion and Management, 2008, 49(6): 1407-1415
|
| [14] |
Yuan X, Su A, Yuan Y, Nie H, Wang L. An improved pso for dynamic load dispatch of generators with valve-point effects. Energy, 2009, 34(1): 67-74
|
| [15] |
Wang Y, Zhou J, Qin H, Lu Y. Improved chaotic particle swarm optimization Algorithm for dynamic economic dispatch problem with valve-point effects. Energy Conversion and Management, 2010, 51(12): 2893-2900
|
| [16] |
Kumar R, Sharma D, Sadu A. A hybrid multi-agent based particle swarm optimization algorithm for economic power dispatch. International Journal of Electrical Power & Energy Systems, 2011, 33(1): 115-123
|
| [17] |
Selvakumar A I. Enhanced cross-entropy method for dynamic economic dispatch with valve-point effects. International Journal of Electrical Power & Energy Systems, 2011, 33(3): 783-790
|
| [18] |
Duman S, Guvenc U, Sonmez Y, Yorukeren N. Optimal power flow using gravitational search algorithm. Energy Conversion and Management, 2012, 59: 86-95
|
| [19] |
Hingorani N G, Gyugyi L. Understanding FACTS: Concepts and Technology of Flexible A Transmission Systems. Wiley-IEEE Press, 1999
|
| [20] |
Aghaei J, Gitizadeh M, Kaji M. Placement and operation strategy of FACTS devices using optimal continuous power flow. Scientia Iranica, 2012, 19(6): 1683-1690
|
| [21] |
Frank S, Steponavice I, Rebennak S. Optimal power flow: a bibliographic survey II, non-deterministic and hybrid methods. Energy System, 2012, 3(3): 259-289
|
| [22] |
Capitanescu F, Ramos J L M, Panciatici P, Kirschend D, Marcolini A M, Platbrood L, Wehenkel L. State-of-the-art, challenges, and future trends in security constrained optimal power flow. Electric Power Systems Research, 2011, 81(8): 1731-1741
|
| [23] |
Storn R, Price K. Differential evolution, a simple and efficient adaptive scheme for global optimization over continuous spaces. Tech Rep TR-95-012. International Computer Science Institute, Berkeley, USA, 1995
|
| [24] |
Coelho L S, Souza R C T, Mariani V C. Improved differential evolution approach based on cultural algorithm and diversity measure applied to solve economic load dispatch problems. Mathematics and Computers in Simulation, 2009, 79(10): 3136-3147
|
| [25] |
Mahdad B, Srairi K. Differential evolution based dynamic decomposed strategy for solution of large practical economic dispatch. In: 10th EEEIC International Conference on Environment and Electrical Engineering. Rome, Italy, 2011
|
| [26] |
Lu Y, Zhou J, Qin H, Li Y, Zhang Y. An adaptive hybrid differential evolution Algorithm for dynamic economic dispatch with valve-point effects. Expert Systems with Applications, 2010, 37(7): 4842-4849
|
| [27] |
Simon D. Biogeography-based optimization. IEEE Transactions on Evolutionary Computation, 2008, 12(6): 702-713
|
| [28] |
Bhattacharya A, Chattopadhyay P K. Hybrid differential evolution with Biogeaography-based optimization for solution of economic load dispatch. IEEE Transactions on Power Systems, 2010, 25(4): 1955-1964
|
| [29] |
Roy P K, Ghoshal S P, Thakur S S. Biogeography based optimization for multi-constraint optimal power flow with emission and non-smooth cost function. Expert Systems with Applications, 2010, 37(12): 8221-8228
|
| [30] |
Feurt-Esquivel C R, Acha E, Tan S G, Rico J J. Efficient object oriented power systems software for the analysis of large-scale networks containing FACTS controlled branches. IEEE Transactions on Power Systems, 1998, 13(2): 464-472
|
| [31] |
Mahdad B, Bouktir T, Srairi K. OPF with environmental constraints with SVC controller using decomposed parallel GA: application to the Algerian network. Journal of Electrical Engineering & Technology, 2009, 4(1): 55-65
|
| [32] |
Mahdad B, Bouktir T, Srairi K. Fuzzy controlled genetic algorithm for environmental/economic dispatch with shunt FACTS devices. In: Transmission and Distribution Conference and Exposition. Chicago, USA, 2008, 1-8
|
| [33] |
Meng K, Wang H G, Dong Z, Wong K P. Quantum-inspired particle swarm optimization for valve-point economic load dispatch. IEEE Transactions on Power Systems, 2010, 25(1): 215-222
|
| [34] |
Abido M A. Environmental/economic power dispatch using multiobjective evoulutionary algorithm. IEEE Transactions on Power Systems, 2002, 18(4): 1529-1537
|
/
| 〈 |
|
〉 |
AI Summary
