Journal Article10.1109/TSG.2018.2833108
Distributed Consensus Based Algorithm for Economic Dispatch in a Microgrid
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TL;DR: Using multi-parameter perturbation theory and graph theory, the convergence of the algorithm is proved and it is obtained that the algorithm converges to the optimal solution at a rate governed by the second largest eigenvalue of the system matrix.
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Abstract: Economic dispatch problem (EDP) is a fundamental optimization problem of power systems. With the penetration of renewable energy sources in microgrids, this paper proposes a distributed algorithm based on consensus theory to solve the EDP with a quadratic cost function. The method takes advantage of the fact that incremental costs need to be equal for all buses at optimal output power values. Thus, the incremental cost of each bus is selected as a consensus variable and the local mismatch between total demand and generation is assigned as a feedback variable to meet demand constraints. Unlike the existing related works, the feedback gains for the feedback variables are different and time-varying. Using multi-parameter perturbation theory and graph theory, the convergence of the algorithm is proved. Furthermore, the upper bounds of the feedback gains are given theoretically, and we obtain that the algorithm converges to the optimal solution at a rate governed by the second largest eigenvalue of the system matrix. Meanwhile, the algorithm is a fully distributed algorithm without a leader or a virtual command node. The simulation results illustrate the effectiveness of the algorithm even though there is a demand change and generator damage. Some simulation results intuitively illustrate how the convergence speed changes with the feedback gains.
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Citations
Distributed Control Strategies for Microgrids: An Overview
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Role of optimization techniques in microgrid energy management systems—A review
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TL;DR: In this article , a state-of-the-art systematic review of the different optimization techniques used to address the energy management problems in micro-grids is presented, particularly focusing on forecasting, demand management, economic dispatch and unit commitment.
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References
Convergence Analysis of the Incremental Cost Consensus Algorithm Under Different Communication Network Topologies in a Smart Grid
Ziang Zhang,Mo-Yuen Chow +1 more
TL;DR: The mathematical formulation of the incremental cost consensus algorithm, which is able to solve the conventional centralized economic dispatch problem in a distributed manner, and the results of several case studies show that the difference between network topologies will influence the convergence rate of the ICC algorithm.
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Design and Stability of Load-Side Primary Frequency Control in Power Systems
TL;DR: It is proved that the swing dynamics and the branch power flows, coupled with frequency-based load control, serve as a distributed primal-dual algorithm to solve OLC and establish the global asymptotic stability of a multimachine network under such type of load-side primary frequency control.
Breaking the Hierarchy: Distributed Control and Economic Optimality in Microgrids
TL;DR: This paper builds from a first-principle analysis of decentralized primary droop control on centralized, decentralized, and distributed architectures for secondary frequency regulation and finds that averaging-based distributed controllers using communication among the generation units offer the best combination of flexibility and performance.
549
Optimal Scaling of a Gradient Method for Distributed Resource Allocation
Lin Xiao,Stephen Boyd +1 more
TL;DR: A class of weighted gradient methods for distributed resource allocation over a network is considered and sufficient conditions on the edge weights for the algorithm to converge monotonically to the optimal solution have the form of a linear matrix inequality.
Hierarchical Economic Dispatch for Piecewise Quadratic Cost Functions
Chin E. Lin,G. L. Viviani +1 more
TL;DR: In this article, the authors present a method to solve the economic power dispatch problem with piecewise quadratic cost functions, which allows for decentralizing the computations to multiple generators.
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