Abstract

Continuation power flow (CPF) calculation is very important for analyzing voltage stability of power system. CPF calculation needs to deal with non-smooth constraints such as the generator buses reactive power limits. It is still a technical challenge to determine the step size while dealing with above non-smooth constraints in CPF calculation. In this paper, an asymptotic numerical method (ANM) based on Fischer‐Burmeister (FB) function, is proposed to calculate CPF. We first used complementarity constraints to cope with non-smooth issues and introduced the FB function to formulate the complementarity constraints. Meanwhile, we introduced new variables for substitution to meet the quadratic function requirements of ANM. Compared with the conventional predictor-corrector method combining with heuristic PV-PQ (PV and PQ are used to describe bus types. PV means that the active power and voltage of the bus are known. PQ means that the active and reactive power of bus are known.) bus type switching, ANM can effectively solve the PV-PQ bus type switching problem in CPF calculation. Furthermore, to assure high efficiency, ANM can rapidly approach the voltage collapse point by self-adaptive step size adjustment and constant Jacobian matrix used for power series expansion. However, conventional CPF needs proper step set in advance and calculates Jacobian matrix for each iteration. Numerical tests on a nine-bus network and a 182-bus network validate that the proposed method is more robust than existing methods.

Highlights

  • Power flow calculation is one of the most basic calculation in power system analysis, and it is the basis of power system stability calculation and fault analysis [1]

  • A new Continuation power flow (CPF) calculation method based on asymptotic numerical method (ANM) is proposed, which can only cope with quadratic functions

  • It proves that the system voltage will be unstable when it reaches the voltage stability limit, which is consistent with the calculation of CPF

Read more

Summary

Introduction

Power flow calculation is one of the most basic calculation in power system analysis, and it is the basis of power system stability calculation and fault analysis [1]. The traditional method of solving reactive power limit is the logical switch of PV-PQ By using complementary constraints to describe the switching relationship of PV-PQ bus type, the relationship between reactive power and voltage of the bus can be effectively considered without making logical judgment in the process of power flow (PF) iteration. A new CPF calculation method based on asymptotic numerical method (ANM) is proposed, which can only cope with quadratic functions. ANM is used to calculate the continuous power flow and more robust than predictor-corrector based method to cope with constraints exchange issue. Compared with the conventional predictor-corrector method, ANM can quickly approach the voltage collapse point by self-adaptive step size adjustment and constant Jacobian matrix used for power series expansion, greatly improving the CPF calculation efficiency

Semi-Smooth Quadratic Power Flow Equations
Algorithm of ANM-CPF
Case Study
Without the Consideration of Reactive Power Limit in CPF
The step size at different on size
Method
Impact of Slack Variable μ on CPF
Computation of ANM-CPF
The Reason for the Proposed Method Working
Conclusions

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

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.