Reverse Power Flow Control in a ST-Fed Distribution Grid

Giovanni De Carne; Giampaolo Buticchi; Zhixiang Zou; Marco Liserre

doi:10.1109/TSG.2017.2651147

Reverse Power Flow Control in a ST-Fed Distribution Grid

Giovanni De Carne, Giampaolo Buticchi, Zhixiang Zou, Marco Liserre

Research output: Journal Publication › Article › peer-review

86 Citations (Scopus)

Abstract

The massive integration of distributed generation in the grid poses new challenges to the system operators, like the reverse power flow from the low voltage (LV) to medium voltage (MV) grid. In the case of high DG power production and low load absorption, the voltage rises in the line reaching the upper voltage limit. At this regard the smart transformer (ST) offers a new possibility to limit the reverse power flow in the MV grids. The ST can adapt the voltage waveform modifying the frequency in order to interact with the local distributed generation, that are normally equipped with droop characteristic. However, when a fast change in the frequency is applied to avoid reverse power flow to MV grid, stability problems, so far not investigated, arise. In this paper, the stability analysis has been performed analytically and validated by means of control-hardware-in-loop in a real time digital simulator and with experimental results in laboratory.

Original language	English
Pages (from-to)	3811-3819
Number of pages	9
Journal	IEEE Transactions on Smart Grid
Volume	9
Issue number	4
DOIs	https://doi.org/10.1109/TSG.2017.2651147
Publication status	Published - Jul 2018
Externally published	Yes

Keywords

Bidirectional Power Flow
Frequency Control
Smart Transformer
Solid State Transformer

ASJC Scopus subject areas

General Computer Science

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10.1109/TSG.2017.2651147

Cite this

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title = "Reverse Power Flow Control in a ST-Fed Distribution Grid",

abstract = "The massive integration of distributed generation in the grid poses new challenges to the system operators, like the reverse power flow from the low voltage (LV) to medium voltage (MV) grid. In the case of high DG power production and low load absorption, the voltage rises in the line reaching the upper voltage limit. At this regard the smart transformer (ST) offers a new possibility to limit the reverse power flow in the MV grids. The ST can adapt the voltage waveform modifying the frequency in order to interact with the local distributed generation, that are normally equipped with droop characteristic. However, when a fast change in the frequency is applied to avoid reverse power flow to MV grid, stability problems, so far not investigated, arise. In this paper, the stability analysis has been performed analytically and validated by means of control-hardware-in-loop in a real time digital simulator and with experimental results in laboratory.",

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AU - De Carne, Giovanni

AU - Buticchi, Giampaolo

AU - Zou, Zhixiang

AU - Liserre, Marco

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AB - The massive integration of distributed generation in the grid poses new challenges to the system operators, like the reverse power flow from the low voltage (LV) to medium voltage (MV) grid. In the case of high DG power production and low load absorption, the voltage rises in the line reaching the upper voltage limit. At this regard the smart transformer (ST) offers a new possibility to limit the reverse power flow in the MV grids. The ST can adapt the voltage waveform modifying the frequency in order to interact with the local distributed generation, that are normally equipped with droop characteristic. However, when a fast change in the frequency is applied to avoid reverse power flow to MV grid, stability problems, so far not investigated, arise. In this paper, the stability analysis has been performed analytically and validated by means of control-hardware-in-loop in a real time digital simulator and with experimental results in laboratory.

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Reverse Power Flow Control in a ST-Fed Distribution Grid

Abstract

Keywords

ASJC Scopus subject areas

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