Adaptive-MPPT-Based Control of Improved Photovoltaic Virtual Synchronous Generators

Xiangwu Yan,Tie Li,Ling Wang,Zhipeng Lv,Shuaishuai Zhao,Jiajia Li,Ming Wu

doi:10.3390/en11071834

Xiangwu Yan, Tie Li + Show 5 more

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https://doi.org/10.3390/en11071834

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Journal: Energies	Publication Date: Jul 12, 2018
Citations: 20	License type: CC BY 4.0

Affiliation: North China Electric Power University

Abstract

The lack of inertia and damping mechanism of photovoltaic (PV) grid-connected systems controlled by maximum power point tracking (MPPT) poses a challenge for the safety and stability of the grid. Virtual synchronous generator (VSG) technology has attracted wide attention, since it can make PV grid-connected inverter present the external characteristics of a synchronous generator (SG). Nevertheless, traditional PV-VSG is generally equipped with an energy storage device, which leads to many problems, such as increased costs, space occupation, and post-maintenance. Thus, this paper proposes a two-stage improved PV-VSG control method based on an adaptive-MPPT algorithm. When PV power is adequate, the adaptive-MPPT allows the PV to change the operating point within a stable operation area to actualize system supply-demand, matching in accordance to the load or dispatching power demand; when PV power is insufficient, PV achieves traditional MPPT control to reduce power shortage; simultaneously, improved VSG control prevents the DC bus voltage from falling continuously to ensure its stability. The proposed control approach enables the two-stage PV-VSG to supply power to loads or connect to the grid without adding additional energy storage devices, the effectiveness of which in off-grid and grid-connected modes is demonstrated by typical simulation conditions.

Highlights

In recent years, the continued consumption of fossil fuels has caused problems in terms of energy crises and environmental pollution [1]
This paper mainly aims at the operation scenarios of a single two-stage PV-Virtual synchronous generator (VSG) system and addresses problems of immediately accessing two-stage PV power by way of VSG without supernumerary energy storage devices; coordination control of the other power supplies and PV systems is no longer necessary to describe
In terms of PV control, PV systems built on economic benefits mostly work in maximum power point tracking (MPPT) mode, which is not in a position to satisfy the operational demands of the future power system owing to the inability to provide inertia and damping support for the grid

Summary

Introduction

The continued consumption of fossil fuels has caused problems in terms of energy crises and environmental pollution [1]. Due to the characteristics of green, clean, environmental friendliness and sustainability, enables photovoltaic (PV) power generation to be highly valued by countries all over the world [3,4]. Plan’ and ‘13th Five-Year Plan’ [4,5], the PV power market in China has enjoyed rapid development. In 2016, China became the country with the biggest PV power generation capacity in the world, with an accumulated installed capacity of 77.4 GW [3]. The ‘Notice on Matters Related to Photovoltaic Power Generation in 2018’ [6], issued by the National Development and Reform

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