Calculation method of line loss rate of substation areas considering tidal current variation with photovoltaic power generation access

Calculation method of line loss rate of substation areas considering tidal current variation with photovoltaic power generation access

Abstract Substation line losses vary with the number of connected PV units due to power flow changes. To ensure the accurate line-loss rate calculations, this study investigates a novel computation method for grid-connected PV systems that accounts for power flow variations. The proposed method empl...

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Bibliographic Details
Main Authors: Shengbo Sun, Chao Cheng, Shujun Ji, Wei Cui, Wei Ge, Shifang Hao
Format: Article
Language:English
Published: SpringerOpen 2025-04-01
Series:Sustainable Energy Research
Subjects:
Photovoltaic power generation access
Tidal current change
Substation line loss rate
Improved K-medoids clustering
Platform classification
Pressure drop method
Online Access:https://doi.org/10.1186/s40807-025-00167-x
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Summary:Abstract Substation line losses vary with the number of connected PV units due to power flow changes. To ensure the accurate line-loss rate calculations, this study investigates a novel computation method for grid-connected PV systems that accounts for power flow variations. The proposed method employs an improved K-medoids clustering algorithm for substation area classification, optimized by an enhanced Cuckoo algorithm to minimize classification errors. Based on PV integration data, the power flow calculation model (using MPPT control) categorizes substations into single-PV-integrated and multi-PV-integrated types to analyze post-connection power flow changes. Through simulation tests, the maximum MAPE of this method is only 0.5% for both cases. The method achieves high-accuracy line-loss rate calculations while considering power flow variations after PV integration.
ISSN:2731-9237

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