سیویلیکا را در شبکه های اجتماعی دنبال نمایید.

An Effective Damping Control Approach in Grid-Connected Converters

Publish Year: 1402
Type: Journal paper
Language: English
View: 91

This Paper With 12 Page And PDF Format Ready To Download

Export:

Link to this Paper:

Document National Code:

JR_IECO-6-4_003

Index date: 7 January 2024

An Effective Damping Control Approach in Grid-Connected Converters abstract

The primary objective of this paper is to address the adverse effects of active power fluctuations on grid-connected converters. One of the challenges in integrating high levels of solar photovoltaic power into the utility grid is the lack of inertia from converter-based resources. This paper proposes a solution to this challenge by synthesizing additional inertia and damping properties using power electronics converters. They emulate the inertia and damping properties of synchronous generators. The paper discusses different approaches to achieving effective damping control in grid-connected converters. It proposes a genetic algorithm optimization tool to optimize virtual damping and inertia parameters. The goal is to suppress oscillations and ensure stable grid operation. The proposed method is evaluated in both time-domain and frequency-domain analyses. The simulation results demonstrate the validity of the optimization technique and implementation procedure. Using virtual inertia and damping properties ensures stable grid operation and improves the integration of solar photovoltaic power into the utility grid. The paper provides a detailed discussion of the approach, optimization tool, and simulation results, highlighting the effectiveness of the proposed method.

An Effective Damping Control Approach in Grid-Connected Converters Keywords:

An Effective Damping Control Approach in Grid-Connected Converters authors

Anwer Ali

SMGRC, Dep. of Electrical Eng., University of Kurdistan, Sanandaj, Iran

Sirwan Shazdeh

SMGRC, Dep. of Electrical Eng., University of Kurdistan, Sanandaj, Iran

Hassan Bevrani

SMGRC, Dep. of Electrical Eng., University of Kurdistan, Sanandaj, Iran.

Rahmatollah Mirzaei

Dept. of Electrical Engineering, University of Kurdistan, Iran

Qobad Shafiee

Dept. of Electrical & Computer Engineering, University of Kurdistan, Sanandaj, Kurdistan, Iran