An improved Newton-Raphson based linear power flow method for DC grids with dispatchable DGs and ZIP loads

Li, Hongwei; Wang, Xiao; Lin, Junmu; Wu, Lei; Liu, Tong

doi:10.1108/compel-06-2021-0195

Cited by 3 publications

(1 citation statement)

References 30 publications

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“…Since the proposed method has better initial value for iterations, the convergence is better. References [8][9][10] compare and analyse several methods that choose proper initial values to enhance the convergence of the Newton's method. Reference [11] analyses the influence of small impedance branches on the Newton's method and proposes a small impedance branch zero-power method for selecting the initial voltage value, which effectively solves the power flow convergence problem in power systems with small impedance branches.…”

Section: Introductionmentioning

confidence: 99%

A Zero-injection Initialization Numerical Method for Ill-conditioned Power Flow

Zhang

Luan

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Regarding the initial value sensitivity issues commonly found in Newton-like power flow calculation algorithms, a zero-injection initialization numerical method for ill-conditioned power flow is proposed in this paper, which improves the convergence of power flow calculation in ill-conditioned power systems. Based on the initial power flow provided by this method, the unbalanced active power of each bus (the slack bus excluded) relates to the net injection of active power of that bus and the unbalanced reactive power of each PQ bus relates to the net injection of reactive power of that bus, thus avoiding significant power unbalance. The method put forward herein can provide a reasonable initial value for the power flow calculation so that difficulty in power flow convergence caused by the unreasonable initial power flow is effectively avoided. The Newton’s method and the optimal multiplier method are implemented respectively on a small-scale ill-conditioned test system to verify the feasibility of the proposed zero-injection initialization numerical method.

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Section: Introductionmentioning

confidence: 99%

A Zero-injection Initialization Numerical Method for Ill-conditioned Power Flow

Zhang

Luan

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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Two Successive Approximate Models and Linear Formulations for Power Flow Analysis of DC Grid

Li,

Wan,

Ding

et al. 2024

J. Electr. Eng. Technol.

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Recursive Convex Model for Optimal Power Flow Solution in Monopolar DC Networks

2022

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This paper presents a new optimal power flow (OPF) formulation for monopolar DC networks using a recursive convex representation. The hyperbolic relation between the voltages and power at each constant power terminal (generator or demand) is represented as a linear constraint for the demand nodes and generators. To reach the solution for the OPF problem a recursive evaluation of the model that determines the voltage variables at the iteration t+1 (vt+1) by using the information of the voltages at the iteration t (vt) is proposed. To finish the recursive solution process of the OPF problem via the convex relaxation, the difference between the voltage magnitudes in two consecutive iterations less than the predefined tolerance is considered as a stopping criterion. The numerical results in the 85-bus grid demonstrate that the proposed recursive convex model can solve the classical power flow problem in monopolar DC networks, and it also solves the OPF problem efficiently with a reduced convergence error when compared with semidefinite programming and combinatorial optimization methods. In addition, the proposed approach can deal with radial and meshed monopolar DC networks without modifications in its formulation. All the numerical implementations were in the MATLAB programming environment and the convex models were solved with the CVX and the Gurobi solver.

show abstract

An improved Newton-Raphson based linear power flow method for DC grids with dispatchable DGs and ZIP loads

Cited by 3 publications

References 30 publications

A Zero-injection Initialization Numerical Method for Ill-conditioned Power Flow

A Zero-injection Initialization Numerical Method for Ill-conditioned Power Flow

Two Successive Approximate Models and Linear Formulations for Power Flow Analysis of DC Grid

Recursive Convex Model for Optimal Power Flow Solution in Monopolar DC Networks

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