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Multi-objective Based Optimization Using Tap Setting Transformer, DG and Capacitor Placement in Distribution Networks | ||
| journal of Artificial Intelligence in Electrical Engineering | ||
| مقاله 2، دوره 1، شماره 2، آذر 2012، صفحه 8-16 اصل مقاله (258.25 K) | ||
| چکیده | ||
| In this article, a multi-objective function for placement of Distributed Generation (DG) and capacitors with the tap setting of Under Load Tap Changer (ULTC) Transformer is introduced. Most of the recent articles have paid less attention to DG, capacitor placement and ULTC effects in the distribution network simultaneously. In simulations, a comparison between different modes was carried out with, and without tap setting of ULTC. Simultaneous DG, capacitor placement, and ULTC transformer tap setting improve the voltage profile of load buses globally. In addition, they can also reduce loss and increase Available Transfer Capability (ATC). The IEEE 41-bus radial distribution network is used to illustrate the effectiveness and feasibility of the proposed approach. | ||
| کلیدواژهها | ||
| DG placement؛ Capacitor placement؛ ULTC Transformer؛ Loss reduction؛ voltage profile؛ available transfer capability؛ multi-objective function | ||
| مراجع | ||
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[1] M. Ladjavardi and M. A. S. Masoum “Genetically Optimized Fuzzy Placement and Sizing of Capacitor Banks in Distorted Distribution Networks,” IEEE Transactions on Power Delivery, Vol. 23, No. 1, Jan 2008. [2] Ch. Chang “Reconfiguration and Capacitor Placement for Loss Reduction of Distribution Systems by Ant Colony Search Algorithm,” IEEE Transactions on Power Systems, Vol. 23, No. 4, Nov 2008. [3] I. C. Silva, S. Carneiro, E. J. Oliveira, J. S. Costa, J. L. Pereira and P. A. Garcia “A Heuristic Constructive Algorithm for Capacitor Placement on Distribution Systems,” IEEE Transactions on Power Systems, Vol. 23, No. 4, Nov 2008. [4] H. Hedayati, S. A. Nabaviniaki and A. Akbarimajd “A Method for Placement of DG Units in Distribution Networks,” IEEE Transactions on Power Delivery, Vol. 23, No. 3, Jul 2008. [5] M. Moeini-Aghtaie, P. Dehghanian and S. H. Hosseini “Optimal Distributed Generation Placement in a Restructured Environment via a Multi-Objective Optimization Approach,” 16th Conf. on Electrical Power Distribution Networks (EPDC), Bandar abbas, Iran, 19-20 April 2011. [6] O. Aliman1, I. Musirin, M. M. Othman and M. H. Sulaiman,” 5th International Power Engineering and Optimization Conference (PEOCO), Shah Alam, Selangor, Malaysia, 6-7 Jun 2011. [7] A. K. Singh and S. K. Parida “Selection of Load Buses for DG placement Based on Loss Reduction and Voltage Improvement Sensitivity,” IEEE International Conf. on Power Eng., Energy and Electric Drives, p.p. 1-6 May 2011. [8] C. Wang and M. H. Nehrir “Analytical Approaches for Optimal Placement of Distributed Generation Sources in Power Systems” IEEE Transactions on Power [9] M. Kalantari and A. Kazemi “Placement of Distributed Generation unit and Capacitor Allocation in Distribution Systems using Genetic Algorithm,” 10th International Conf. on Environment and Electrical Eng., EEEIC p.p. 1-5, 2011. [10] M. Wang, and J. Zhong “A Novel Method for Distributed Generation and Capacitor Optimal Placement considering Voltage Profiles,” IEEE power and Energy Society General Meeting, p.p. 1-6 Jul 2011. [11] M. Tarafdarhagh, A. Sadighmanesh, and M. R. Hesamzadeh “Improvement of Load Bus Voltages Considering the Optimal Dispatch of Active and Reactive Powers,” 43rd International Universities Power Engineering Conf. (UPEC), Padova, Italy, (on CD) 1-4 Sep 2008. | ||
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