A Practical Short-Circuit Current Calculation Method for Renewable Energy Plants Based on Single-Machine Multiplication

A Practical Short-Circuit Current Calculation Method for Renewable Energy Plants Based on Single-Machine Multiplication

In non-synchronous machine sources (N-SMSs), power sources are connected to the grid through power electronic devices, which typically exhibit a voltage-controlled current source characteristic during faults. Due to the current-limiting feature of inverters, the voltage and current demonstrate a str...

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Bibliographic Details
Main Authors: Jianhua Li, Jianyu Lu, Po Li, Ying Huang, Guoteng Wang
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Electricity
Subjects:
low-voltage ride-through
short-circuit current
inverter
renewable energy plants
single-machine multiplication
Online Access:https://www.mdpi.com/2673-4826/6/1/7
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Summary:In non-synchronous machine sources (N-SMSs), power sources are connected to the grid through power electronic devices, which typically exhibit a voltage-controlled current source characteristic during faults. Due to the current-limiting feature of inverters, the voltage and current demonstrate a strong nonlinearity. As a result, the short-circuit current (SCC) of N-SMSs is commonly calculated using iterative methods. For renewable energy plants, which contain a large number of N-SMSs, the calculation is often based on the single-machine multiplication method, ignoring internal discrepancies among machines. To address these issues, this paper proposes a calculation method for the SCC contributed by a renewable energy plant based on single-machine multiplication. This method is simple, does not require iteration, and ensures engineering practicability. This paper first analyzes the SCC calculation model under a low-voltage ride-through (LVRT) control strategy. Inspired by the single-machine multiplication approach, a fast initial voltage calculation method at the machine terminal is proposed, along with an active current correction method. With this approach, a more accurate SCC can be obtained, avoiding convergence issues and ensuring practical applicability in engineering. The validity of this method is verified through PSCAD/EMTDC simulations. The error in calculating SCC does not exceed 3.02%. Compared with the single-machine multiplication method, the accuracy is significantly improved, while the accuracy is roughly equivalent to that of the iterative method.
ISSN:2673-4826

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