Document Type : Other

Authors

Electric and Computer Engineering Tabriz University, Jame Jam, Tabriz, Iran.

Abstract

Utilizing distributed generation (DG) units in power system has positive impacts such as: reduction active and reactive power loss, reduce load curtailment, increasing system reliability and reducing the need of installing the new power plant. Wind turbine (WT) is a type of DGs. Employing demand side management in a residential, industrial and commercial loads could highlight the role of consumers in managing the total power and increasing the efficiency of system. In this paper the impacts of utilizing WT in improving technical constraints of the reconfigurable distribution system has been evaluated. The Monte Carlo based power flow equation is implemented to the presented scheduling problem. Simulations are done on IEEE 33 bus reconfigurable distribution system

Keywords

[1] Baboli, Payam Teimourzadeh et al. Two-stage Condition-based Maintenance Model of Wind Turbine: from Diagnosis to Prognosis. In 2020 IEEE International Smart Cities Conference (ISC2). IEEE. pp. 1-6.‏
[2] Hosseinnia, Hamed; TOUSI, Behrouz. Optimal operation of DG-based micro-grid (MG) by considering demand response program (DRP). Electric Power Systems Research, 2019, 167: 252-260.‏
[3] Hosseinnia, Hamed; Modarresi, Javad; Nazarpour, Daryoush. Optimal eco-emission scheduling of distribution network operator and distributed generator owner under employing demand response program. Energy, 2020, 191: 116553.‏
[4] Hosseinnia, Hamed; Nazarpour, Daryoush; Talavat, Vahid. Multi-objective optimization framework for optimal planning of the micro-grid (MG) under employing demand response program (DRP). Journal of Ambient Intelligence and Humanized Computing, 2019, 10.7: 2709-2730.‏
[5] Hosseinnia, Hamed; Nazarpour, Daryoush; Talavat, Vahid. Benefit maximization of demand side management operator (DSMO) and private investor in a distribution network. Sustainable cities and society, 2018, 40: 625-637.‏
[6] Hosseinnia, Hamed; Farsadi, Murteza. Effect of reconfiguration and capacitor placement on power loss reduction and voltage profile improvement. Transactions on electrical and electronic materials, 2017, 18.6: 345-349.‏
[7] Zhou, Quan et al. Distributed control and communication strategies in networked micro-grids. IEEE Communications Surveys and Tutorials, 2020, 22.4: 2586-2633.‏
[8] Zhou, Quan et al. Privacy-preserving distributed control strategy for optimal economic operation in islanded reconfigurable micro-grids. IEEE Transactions on Power Systems, 2020, 35.5: 3847-3856.‏
[9] Teimourzadeh Baboli, Payam et al. Integration Reinforcement of Renewable Energy Resources and PHEVs through Hybrid AC-DC Local Network. The Modares Journal of Electrical Engineering, 2012, 12.2: 42-51.‏