A novel control technique for on‐load tap changer to enlarge the reactive power capability of wind power plants

Hoseinzadeh, Bakhtyar; Blaabjerg, Frede

doi:10.1049/gtd2.12510

Cited by 8 publications

(2 citation statements)

References 16 publications

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“…Therefore, strong investment in voltage regulation assets, both local (e.g., photovoltaic (PV) inverters [2] or reactive power injectors [3]) and global (OLTCTs) [4], is expected in the coming years. In general, and analogous to already existing solutions for energy management based on demand response [5], the correct coordination of technologies is expected to play a key role [6].…”

Section: Introductionmentioning

confidence: 99%

Unified Framework for the Analysis of the Effect of Control Strategies on On-Load Tap-Changer’s Automatic Voltage Controller

Garcia¹,

Santana

2024

IEEE Trans. Automat. Sci. Eng.

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With the advent of new loads and generation on the low voltage grid, voltage fluctuation has increased, especially in active distribution grids with a high penetration of distributed resources and a large deployment of electric vehicles. The coordination of different technologies has emerged as the best way for voltage regulation, among others, smart inverters, open soft points or transformers with on-load regulation capability. This paper proposes a novel way to model the control strategies for the automatic voltage controller of On-Load Tap-Changer transformers. The purpose is to standardize and simplify the way these strategies are represented, in order to facilitate (i) their selection by Distribution System Operators, (ii) their future integration with other systems, and (iii) to increase the ability to anticipate On-Load Tap-Changer behavior. The proposal has been validated using real data, obtaining an accuracy of 99.15% in the tap changer positions. A unified framework is also introduced, which allows the proposed functional representation to be combined with the On-Load Tap-Changer controller behavior estimation. A experimental validation has been carried out where more than 150 000 strategies have been simulated, finally determining the one that best fits the objectives.Note to Practitioners-Historically, on-load tap-changing transformers have been used in high-voltage substations. However, with the integration of electric vehicles and the penetration of distributed energy resources, the need to implement this type of solution in low-voltage substations has grown. However, the characteristics and requirements are not the same, for example, given their nature, low voltage grids are more unbalanced and are often regulated to ensure the quality of supply. Therefore, inheriting the control strategies of traditional on-load tap changers may pose a serious risk. This paper proposes a novel unified framework that facilitates the modeling and simulation of almost any control strategy for distribution transformers with on-load tap changers. This will allow the choice of control parameters that minimize voltage deviation from the voltage setpoint and maximize device lifetime. Our proposal can be considered as a solution to the uncertainty of which control parameters to use. It can be performed before commissioning, based on historical data, or a posteriori, based on the collected data.

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Section: Introductionmentioning

confidence: 99%

Unified Framework for the Analysis of the Effect of Control Strategies on On-Load Tap-Changer’s Automatic Voltage Controller

Garcia¹,

Santana

2024

IEEE Trans. Automat. Sci. Eng.

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“…In distribution system, consumption voltage is often 400 V for three-phase loads or 220 V for single-phase loads. These loads are supplied by connecting to the low voltage (LV) side of transformers and voltage quality for them are often adjusted by the onload tap charger in each transformer [11][12][13][14]. Moreover, the number of motors consuming medium voltage at high voltage (HV) side of transformers directly is very small.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Effect of Capacitor Placements at High and Low Voltage Transformer Sides as Voltage Profile and Total Cost in Distribution Systems

Thanh Thuy

2023

Int J Res Rev

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This study mentions the problem of determining optimal placements and sizes for capacitor banks by comparing different schemes that allow implemented buses at both high and low voltage side, only high voltage side or low voltage side of transformers in distribution systems. Criterions evaluated for each scheme are active and reactive power losses in whole system, voltage value at all buses, installation and operation cost and accumulative profit saving. Standard with and without transformer branches in distribution systems and Newton-Raphson method are introduced to make clear about the way to analyze power flows in whole system. Optimal placements and sizes for capacitor banks are determined by using a proposed algorithm and optimal capacitor placement tool in ETAP software. Simulation results can help to show the comparisons, evaluations and make decision about optimal capacitor placements and sizes. The contribution shows the best scheme that install capacitors at low voltage side of transformers because it has the lowest implemented capacity, highest economic factors while voltage quality is always in allowable range. Achieved results can be applied in any distribution system, help managers have overall review and decide optimal placements and sizes for capacitor banks. Keywords: Capacitor bank, OCP Tool, ETAP software, Optimal placement, Optimal size, Voltage quality, Optimal cost.

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A variable droop coefficient-based reactive power coordinated control strategy in wind farm

Xian,

Wu,

Xie

et al. 2024

Electr Eng

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A novel control technique for on‐load tap changer to enlarge the reactive power capability of wind power plants

Cited by 8 publications

References 16 publications

Unified Framework for the Analysis of the Effect of Control Strategies on On-Load Tap-Changer’s Automatic Voltage Controller

Unified Framework for the Analysis of the Effect of Control Strategies on On-Load Tap-Changer’s Automatic Voltage Controller

Analysis of the Effect of Capacitor Placements at High and Low Voltage Transformer Sides as Voltage Profile and Total Cost in Distribution Systems

A variable droop coefficient-based reactive power coordinated control strategy in wind farm

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