Abstract
Distribution networks are usually designed with a fixed tree-shape topology, which limits its adapting capability against failures and excessive variation of load/generation. Reconfiguration is an important tool to optimize the steady-state operating point of the distribution system under normal operating conditions, as well as increasing the network's responsiveness under interruptions by minimizing non-supplied demand. This paper studies how to increase the capabilities of reconfiguration in distribution networks through the optimal installation of reserve branches even if few branches are switchable. For this purpose, a scenario-based convex programming model is proposed to minimize the operation cost under normal operating conditions along with the energy not supplied related to network interruptions. Instead of conventional simulation adopted by previous approaches, the formulation is based on a set of linear logical constraints that represent the post-fault network reconfiguration process. Hence, classical optimization techniques can be used to solve the proposed model, which provides a suitable framework for the attainment of global optimality using efficient off-the-shelf software. Results show a decrease in the cost of energy production (2.85% and 1.08% for the 33-node and 69-node test systems) along with a decrease in the cost of energy not supplied (58.17% and 72.42% for the 33-node and 69-node test systems) due to the greater restoration capacity of the system using reserve branches.
Highlights
IntroductionIn the framework of three major objectives: meeting end users’ demand, the three aforementioned options, the reconfiguration of economically operating the network, and ensuring ser- the distribution network is common to all of them, so its vice continuity standards
ISTRIBUTION operators generally aim to achieve discontinuity in the service [6]–[8]
The proposed model has been applied in a 33-node test 501 system adapted from [48] and a 69-node test system
Summary
In the framework of three major objectives: meeting end users’ demand, the three aforementioned options, the reconfiguration of economically operating the network, and ensuring ser- the distribution network is common to all of them, so its vice continuity standards. To attend these objectives, study is of great interest to all stakeholders across the several techniques have been used, such as expansion electrical sector. If planned, re- branches to cover large distances, such that each interrupconfiguration ensures greater possibilities for restoration tion case can be restored with a pair of switches, a search of service in the event of permanent interruptions [6], algorithm based on the greedy set coverage problem is [8], [11]. Reconfiguration of distribution systems is carried out and the sizing of reserve branches for restoration service by changing the on/off status of the network switches purposes; the application of those metaheuris-
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
