Dai Orihara scite author profile

Inertia reduction due to inverter-based resource (IBR) penetration deteriorates power system stability, which can be addressed using virtual inertia (VI) control. There are two types of implementation methods for VI control: grid-following (GFL) and grid-forming (GFM). There is an apparent difference among them for the voltage regulation capability, because the GFM controls IBR to act as a voltage source and GFL controls it to act as a current source. The difference affects the performance of the VI control function, because stable voltage conditions help the inertial response to contribute to system stability. However, GFL can provide the voltage control function with reactive power controllability, and it can be activated simultaneously with the VI control function. This study analyzes the performance of GFL-type VI control with a voltage control function for frequency stability improvement. The results show that the voltage control function decreases the voltage variation caused by the fault, improving the responsivity of the VI function. In addition, it is found that the voltage control is effective in suppressing the power swing among synchronous generators. The clarification of the contribution of the voltage control function to the performance of the VI control is novelty of this paper.

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Frequency Regulation by Decentralized V2G Control with Consensus-Based SOC Synchronization

Orihara

Kimura

Saitoh

2018

IFAC-PapersOnLine

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Determination method of Volt‐Var and Volt‐Watt curve for smart inverters applying optimization of active/reactive power allocation for each inverter

Yamane

Orihara

Iioka

et al. 2019

Electrical Engineering Japan

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In recent years, the smart inverter that is an advanced inverter has been investigated as a solution to voltage problem in the distribution network in which a lot of photovoltaic(PV)s are introduced Among multiple functions of the smart inverter, voltage‐reactive power control (Volt‐Var) and voltage‐active power control (Volt‐Watt) have been attracted attention because of their effectiveness. However, the problem is how to determine optimal curves setting of Volt‐Var and Volt‐Watt. In this paper, we suggest the determination method of optimal Volt‐Var and Volt‐Watt curves, and verify the effectiveness of the optimal curves on distribution network.

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A Novel Virtual Synchronous Generator Control of PMSG-Based Wind Generation System to Enhance Transient Stability of Power System

Imai

Orihara

Iioka

et al. 2018

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Voltage reduction due to reverse power flow in distribution feeder with photovoltaic system

Iioka

Fujii

Orihara

et al. 2019

International Journal of Electrical Power & Energy Systems

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Battery-assisted load frequency control coordinated with economic load dispatching

Orihara

Saitoh

2017

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Characteristic Analysis and Indexing of Multimachine Transient Stabilization Using Virtual Synchronous Generator Control

et al. 2021

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As distributed power sources via grid-connected inverters equipped with functions to support system stabilization are being rapidly introduced, individual systems are becoming more complex, making the quantification and evaluation of the stabilizing functions difficult. Therefore, to introduce distributed power sources and achieve stable system operation, a system should be reduced to a necessary but sufficient size in order to enable the quantification of its behavior supported by transient theory. In this study, a system in which multiple distributed power supplies equipped with virtual synchronous generator control are connected is contracted to a two-machine system: a main power supply and all other power supplies. The mechanical torque of each power supply is mathematically decomposed into inertia, damping, synchronization torques, and the governor effect. The system frequency deviations determined by these elements are quantitatively indexed using MATLAB/Simulink. The quantification index displayed in three-dimensioned graphs illustrates the relationships between the various equipment constants of the main power supply, the control variables of the grid-connected inverter control, and the transient time series. Moreover, a stability analysis is performed in both the time and frequency domains.

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Dai Orihara

Development of Frequency-watt Function Model of Smart Inverter by Power Flow Calculation with Frequency Fluctuation

Contribution of Voltage Support Function to Virtual Inertia Control Performance of Inverter-Based Resource in Frequency Stability

Frequency Regulation by Decentralized V2G Control with Consensus-Based SOC Synchronization

Determination method of Volt‐Var and Volt‐Watt curve for smart inverters applying optimization of active/reactive power allocation for each inverter

A Novel Virtual Synchronous Generator Control of PMSG-Based Wind Generation System to Enhance Transient Stability of Power System

Voltage reduction due to reverse power flow in distribution feeder with photovoltaic system

Battery-assisted load frequency control coordinated with economic load dispatching

Characteristic Analysis and Indexing of Multimachine Transient Stabilization Using Virtual Synchronous Generator Control

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