Sahand Ghavidel scite author profile

Penetration of renewable energy sources (RESs) and electrical energy storage (EES) systems in distribution systems is increasing, and it is crucial to investigate their impact on systems' operation scheme, reliability and security. In this paper, expected energy not supplied (EENS) and voltage stability index (VSI) of distribution networks are investigated in dynamic balanced and unbalanced distribution network reconfiguration, including RESs and EES systems. Furthermore, due to the high investment cost of the EES systems, the number of charge and discharge is limited, and the state-of-health constraint is included in the underlying problem to prolong the lifetime of these facilities. The optimal charging/discharging scheme for EES systems and optimal distribution network topology are presented in order to optimize the operational costs, and reliability and security indices simultaneously. The proposed strategy is applied to a large-scale 119-bus distribution test network in order to show the economic justification of the proposed approach.

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Phasor particle swarm optimization: a simple and efficient variant of PSO

Ghasemi

et al. 2018

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Solving optimal reactive power dispatch problem using a novel teaching–learning-based optimization algorithm

Ghasemi

Taghizadeh

Ghavidel

et al. 2015

Engineering Applications of Artificial Intelligence

107

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A new hybrid algorithm for optimal reactive power dispatch problem with discrete and continuous control variables

Ghasemi

Ghavidel

Ghanbarian

et al. 2014

Applied Soft Computing

113

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Modified teaching learning algorithm and double differential evolution algorithm for optimal reactive power dispatch problem: A comparative study

Ghasemi¹,

Ghanbarian²,

Ghavidel³

et al. 2014

Information Sciences

115

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A review on the virtual power plant: Components and operation systems

Ghavidel

Aghaei

et al. 2016

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Abstract--Due to the high penetration of Distributed Generations (DGs) in the network and the presently involving competition in all electrical energy markets, Virtual Power Plant (VPP) as a new concept has come into view, with the intention of dealing with the increasing number of DGs in the system and handling effectively the competition in the electricity markets. This paper reviews the VPP in terms of components and operation systems. VPP fundamentally is composed of a number of DGs including conventional dispatchable power plants and intermittent generating units along with possible flexible loads and storage units. In this paper, these components are described in an all-inclusive manner, and some of the most important ones are pointed out. In addition, the most important anticipated outcomes of the two types of VPP, Commercial VPP (CVPP) and Technical VPP (TVPP), are presented in detail. Furthermore, the important literature associated with Combined Heat and Power (CHP) based VPP, VPP components and modeling, VPP with Demand Response (DR), VPP bidding strategy, and participation of VPP in electricity markets are briefly classified and discussed in this paper.

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Sahand Ghavidel

Multi-objective optimal power flow considering the cost, emission, voltage deviation and power losses using multi-objective modified imperialist competitive algorithm

An improved teaching–learning-based optimization algorithm using Lévy mutation strategy for non-smooth optimal power flow

Energy Management Strategy in Dynamic Distribution Network Reconfiguration Considering Renewable Energy Resources and Storage

Phasor particle swarm optimization: a simple and efficient variant of PSO

Solving optimal reactive power dispatch problem using a novel teaching–learning-based optimization algorithm

A new hybrid algorithm for optimal reactive power dispatch problem with discrete and continuous control variables

Modified teaching learning algorithm and double differential evolution algorithm for optimal reactive power dispatch problem: A comparative study

A review on the virtual power plant: Components and operation systems

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