Journal ArticleDOI
Reliability Optimization of Automated Distribution Networks With Probability Customer Interruption Cost Model in the Presence of DG Units
Alireza Heidari,Vassilios G. Agelidis,Mohsen Kia,Josep Pou,Jamshid Aghaei,Miadreza Shafie-khah,Joao P. S. Catalao +6 more
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TLDR
A value-based reliability optimization formulation is derived from the proposed model to take into consideration customer interruption cost and related costs of sectionalizing switches and protective devices in distribution networks.Abstract:
Distribution automation systems in terms of automatic and remote-controlled sectionalizing switches allows distribution utilities to implement flexible control of distribution networks, which is a successful strategy to enhance efficiency, reliability, and quality of service. The sectionalizing switches play a significant role in an automated distribution network, hence optimizing the allocation of switches can improve the quality of supply and reliability indices. This paper presents a mixed-integer nonlinear programming aiming to model the optimal placement of manual and automatic sectionalizing switches and protective devices in distribution networks. A value-based reliability optimization formulation is derived from the proposed model to take into consideration customer interruption cost and related costs of sectionalizing switches and protective devices. A probability distribution cost model is developed based on a cascade correlation neural network to have a more accurate reliability assessment. To ensure the effectiveness of the proposed formulation both technical and economic constraints are considered. Furthermore, introducing distributed generation into distribution networks is also considered subject to the island operation of DG units. The performance of the proposed approach is assessed and illustrated by studying on the bus 4 of the RBTS standard test system. The simulation results verify the capability and accuracy of the proposed approach.read more
Citations
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Journal ArticleDOI
An analytical methodology for reliability assessment and failure analysis in distributed power system
TL;DR: Reliability analysis is used to evaluate system design and gathering outage data and the capability and effectiveness of reliability evaluation are demonstrated according to the simulation results through ETAP which obtained by applying it to this power system.
Journal ArticleDOI
Reliability Modeling and Evaluation of Active Cyber Physical Distribution System
TL;DR: A novel model is developed to evaluate the validity of cyber link considering dynamic routing, delay, and communication error, particularly the cyber traffic, and the reliability of cyber and physical subsystems is evaluated based on nonsequential and sequential Monte Carlo methods.
Journal ArticleDOI
A Framework for Load Service Restoration Using Dynamic Change in Boundaries of Advanced Microgrids With Synchronous-Machine DGs
TL;DR: Simulation case studies demonstrate that the proposed strategy is effective in mitigating the influence of a network fault and restoring de-energized loads while successfully maintaining frequency and voltage levels in MGs.
Journal ArticleDOI
Overview of Electric Energy Distribution Networks Expansion Planning
Vahid Vahidinasab,Mahdi Tabarzadi,Hamidreza Arasteh,Mohammad Iman Alizadeh,Mohammad Mohammad Beigi,Hamid Reza Sheikhzadeh,Kamyar Mehran,Mohammad Sadegh Sepasian +7 more
TL;DR: This paper is an exhaustive review on the distribution network expansion planning including the modelling of DEP (possible objective functions, problem constraints, different horizon time, and problem variables), optimization model (single/multi-objective), the expansion of distributed energy resources (DERs), problem uncertainties, etc.
Journal ArticleDOI
A mixed integer linear programming based approach for optimal placement of different types of automation devices in distribution networks
TL;DR: This paper provides the best network automation scenario in distribution systems if the network reliability indices are used for measuring the distribution system reliability, if cost of interruptions is defined to all consumers/producers, and if both aforementioned approaches (criteria) are used.
References
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Book
Reliability Evaluation of Power Systems
Roy Billinton,Ronald N. Allan +1 more
TL;DR: In this paper, the authors present an analysis of the IEEE Reliability Test System (IRTS) and evaluate the reliability worth of the test system with Monte Carlo simulation and three-order equations for overlapping events.
Journal ArticleDOI
A reliability test system for educational purposes-basic distribution system data and results
TL;DR: In this paper, a description of an electrical distribution system for use in teaching power system reliability evaluation is presented, which is sufficiently small that students can analyze it using hand calculations and hence fully understand reliability models and evaluations techniques.
Journal ArticleDOI
Optimal switching device placement in radial distribution systems
Roy Billinton,S. Jonnavithula +1 more
TL;DR: In this paper, a new formulation for power system sectionalizing device placement taking into consideration outage, maintenance and investments costs is presented, where a solution methodology based on the optimization technique of simulated annealing is proposed to determine: (i) the number of switches; and (ii) the locations of the switches.
Journal ArticleDOI
Optimal Switch Placement in Distribution Systems Using Trinary Particle Swarm Optimization Algorithm
TL;DR: A novel three-state approach inspired from the discrete version of a powerful heuristic algorithm, particle swarm optimization, is developed and presented to determine the optimum number and locations of two types of switches in radial distribution systems.
Journal ArticleDOI
Ant Colony Optimization-Based Method for Placement of Sectionalizing Switches in Distribution Networks Using a Fuzzy Multiobjective Approach
TL;DR: In this article, the authors proposed a fuzzy multiobjective approach for the placement of switches in distribution networks in the presence of distributed generation sources, where the primary objective is reliability improvement with consideration of economic aspects.