Maximising wind generation through optimised operation of on-load tap changing transformers in active distribution networks

On-load tap changing transformers are the most common control device to regulate and maintain distribution network voltage within required limits. Voltage rise issues on the other hand have become a major factor limiting greater penetration of low carbon generators, particularly in weak distribution...

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Bibliographic Details
Published in:Journal of engineering (Stevenage, England) England), 2017, Vol.2017 (13), p.2339-2344
Main Authors: Danzerl, Daniel, Gill, Simon, Anaya-Lara, Olimpo
Format: Article
Language:English
Subjects:
active distribution networks
distribution network voltage
distribution networks
life‐span cost
load flow
low carbon generators
minimum maintenance cost
network hosting capacity
on load tap changers
on‐load tap changing transformers
optimised set‐point voltage technique
realistic 289‐node UK generic distribution network
time series
time‐series optimal power flow simulations
voltage 11 kV
voltage rise problem
wind generation
wind penetration
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Summary:On-load tap changing transformers are the most common control device to regulate and maintain distribution network voltage within required limits. Voltage rise issues on the other hand have become a major factor limiting greater penetration of low carbon generators, particularly in weak distribution networks. Here, the voltage rise problem is addressed through the application of optimised set-point voltage technique that aims to improve network hosting capacity to accommodate high wind penetration. It assesses the effectiveness of the technique on a realistic 289-node UK generic 11 kV distribution network using time-series optimal power flow simulations. The results reveal that when the tap changer is operated at the optimised set-point voltage, it can lead to greater energy yields. It also shows a reduction in the number of tap changing operations when the transformer is operated within the optimised deadband allowing for an improved life-span and minimum maintenance cost.
ISSN:2051-3305
2051-3305
DOI:10.1049/joe.2017.0749