1. Reconfiguration approach for Distribution Network Considering Energy Storage Devices Based on Binary Particle Swarm Optimization

Mostafa Karimi; Mohsen Simab; mehdi nafar

Articles in Press, Accepted Manuscript, Available Online from 18 August 2021

Abstract
  This paper studies a new method for reconfiguration of the distribution network that considers access to energy storage devices. Initially, a new distribution network reconfiguration model is being created that takes into account access to energy storage devices. This model takes as an objective function ...  Read More

2. Load Balancing Distribution Network Reconfiguration Based on Binary Particle Swarm Optimization

Mostafa Karimi; Mohsen Simab; Mehdi Nafar

Volume 10, Issue 02 , Spring 2021, , Pages 95-98

Abstract
  A reconfiguration model for the distribution network with the optimization objective of reducing three -phase disequilibrium is suggested in order to cope with an increasingly serious three -phase unbalance in distribution network. Second, the distribution network reconfiguration problem is transformed ...  Read More

3. Multi-Objective Distribution Network Analysis Reconfiguration Considering Reliability of Power Supply based on Particle Swarm Optimization

Mostafa Karimi

Volume 09, Issue 04 , Autumn 2020, , Pages 139-142

Abstract
  The distribution dispatcher can modify the overall distribution network configuration without additional investment and resource input by optimizing the switch combination, thus changing the distribution network operating structure. A multi-objective power distribution network reconfiguration model optimization ...  Read More

4. Distribution Network Reconfiguration using PSO Algorithm with DLMP Application

Mostafa Karimi; Mohsen Simab; Mehdi Nafar

Volume 09, Issue 02 , Spring 2020, , Pages 59-64

Abstract
  The topic of distribution network reconfiguration has been recognized as a common problem in the operation of distribution networks. Up to now, reconfiguration of the distribution network has been used to reduce power loss, issues with reliability and emergency problems. As a result of the increasing ...  Read More