Journal ArticleDOI
Optimal Placement and Sizing Method to Improve the Voltage Stability Margin in a Distribution System Using Distributed Generation
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TLDR
In this paper, the authors proposed a method of locating and sizing DG units so as to improve the voltage stability margin, where the authors formulated the DG unit placement and sizing as a mixed-integer nonlinear programming problem with an objective function of improving the stability margin.Abstract:
Recently, integration of distributed generation (DG) in distribution systems has increased to high penetration levels. The impact of DG units on the voltage stability margins has become significant. Optimization techniques are tools which can be used to locate and size the DG units in the system, so as to utilize these units optimally within certain limits and constraints. Thus, the impacts of DG units issues, such as voltage stability and voltage profile, can be analyzed effectively. The ultimate goal of this paper is to propose a method of locating and sizing DG units so as to improve the voltage stability margin. The load and renewable DG generation probabilistic nature are considered in this study. The proposed method starts by selecting candidate buses into which to install the DG units on the system, prioritizing buses which are sensitive to voltage profile and thus improve the voltage stability margin. The DG units' placement and sizing is formulated using mixed-integer nonlinear programming, with an objective function of improving the stability margin; the constraints are the system voltage limits, feeders' capacity, and the DG penetration level.read more
Citations
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Journal ArticleDOI
Optimal Integration of Capacitor and Distributed Generation in Distribution System Considering Load Variation Using Bat Optimization Algorithm
T. Yuvaraj,Kaliaperumal Rukmani Devabalaji,Natarajan Prabaharan,Hassan Haes Alhelou,A. Manju,Poushali Pal,Pierluigi Siano +6 more
TL;DR: An efficient long-term novel scheduling technique is proposed for allocating capacitors in a combined system involving distributed generation (DG) along with radial distribution systems (RDS) and exhibits improved accuracy with less power loss value, superior bus voltage, and stability of system voltage with a higher rate of convergence.
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Multi-objective optimal sizing of distributed generation by application of Taguchi desirability function analysis
TL;DR: Taguchi Desirability Function Analysis (TDFA) is presented, which is a skillful handling of simultaneous optimization of nearly thousand objectives and its ability to generate multiple optimal solutions.
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Allocation of Wind Capacity Subject to Long Term Voltage Stability Constraints
Mostafa Bakhtvar,Andrew Keane +1 more
TL;DR: In this article, a procedure is proposed for wind capacity allocation with the aim of benefiting from the potential of an optimal wind power capacity allocation for enhancing the voltage stability margin, which is based on a multi operating conditions voltage stability constrained optimal power flow.
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Stability implications of bulk power networks with large scale PVs
TL;DR: In this article, the impact of integrating utility-scale photovoltaics (PVs) and rooftop PVs and replacing the existing conventional generators on the stability of a power network is investigated.
Journal ArticleDOI
Robust approach based chimp optimization algorithm for minimizing power loss of electrical distribution networks via allocating distributed generators
TL;DR: A new methodology based on the recent metaheuristic chimp optimizer approach (CO) to identify DGs’ optimal allocations and rated powers and confirmed the superiority and reliability of the proposed CO methodology in achieving a minor power loss via installing the DGs in the correct sites.
References
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Wind Power in Power Systems
TL;DR: In this article, the authors focus on the generation of electricity from clean and renewable sources, and show that wind energy has become the world's fastest growing energy source, and that renewable energy is the most promising energy source.
Journal ArticleDOI
Optimal Renewable Resources Mix for Distribution System Energy Loss Minimization
TL;DR: In this article, a methodology has been proposed for optimally allocating different types of renewable distributed generation (DG) units in the distribution system so as to minimize annual energy loss.
Journal ArticleDOI
Summary of Distributed Resources Impact on Power Delivery Systems
TL;DR: Several system issues which may be encountered as DR penetrates into distribution systems are discussed, including vulnerability and overvoltages due to islanding and coordination with reclosing, system restoration and network issues.
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An approach to quantify the technical benefits of distributed generation
P. Chiradeja,R. Ramakumar +1 more
TL;DR: In this paper, the authors proposed a general approach and a set of indices to assess some of the technical benefits in a quantitative manner, including voltage profile improvement, line loss reduction, environmental impact reduction, and DG benefit index.
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Point of collapse and continuation methods for large AC/DC systems
TL;DR: In this article, the implementation of both point of collapse (PoC) and continuation methods for the computation of voltage collapse points (saddle-node bifurcations) in large AC/DC power systems is described.
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