A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems

Ariya Sangwongwanich; Yongheng Yang; Frede Blaabjerg

doi:10.1109/ECCE.2016.7854671

A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems

Ariya Sangwongwanich, Yongheng Yang, Frede Blaabjerg

AAU Energy

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

53 Citations (Scopus)

1161 Downloads (Pure)

Abstract

In the case of a wide-scale adoption of grid-connected Photovoltaic (PV) systems, more fluctuated power will be injected into the grid due to the intermittency of solar PV energy. A sudden change in the PV power can potentially induce grid voltage fluctuations, and thus challenge the stability of the grid. Hence, this sudden active power change resulting in a large power ramp-rate should be avoided in practice. In fact, some grid regulations also released strict rules on active power ramp-rates for PV systems. This paper proposes a cost-effective control strategy to limit the power ramp-rate for two-stage grid-connected PV systems. The main concept of the proposed scheme is to modify the maximum power point tracking algorithm in such a way to regulate the PV power at the left side of the maximum power point curve. As a consequence, the power ramp-rate can be controlled according to the set-point. Experiments conducted on a 3-kW single-phase two-stage grid-connected PV system have verified that the proposed solution can accomplish fast dynamics, high accuracy, and high robustness in the power ramp-rate control for PV systems.

Original language	English
Title of host publication	Proceedings of the 8th Annual IEEE Energy Conversion Congress and Exposition (ECCE), 2016
Number of pages	7
Publisher	IEEE Press
Publication date	Sept 2016
ISBN (Electronic)	978-1-5090-0737-0
DOIs	https://doi.org/10.1109/ECCE.2016.7854671
Publication status	Published - Sept 2016
Event	8th Annual IEEE Energy Conversion Congress & Exposition: ECCE 2016 - Milwaukee, WI, United States Duration: 18 Sept 2016 → 22 Sept 2016 http://www.ieee-ecce.org/

Conference

Conference	8th Annual IEEE Energy Conversion Congress & Exposition
Country/Territory	United States
City	Milwaukee, WI
Period	18/09/2016 → 22/09/2016
Sponsor	IEEE, IEEE Industry Applications Society (IAS), IEEE Power Electronics and Industry Applications Societies (PELS)
Internet address	http://www.ieee-ecce.org/

Keywords

Active power control
Ramp power control
Maximum power point tracking
Power curtailment
PV systems
Grid-connected power converters

Access to Document

10.1109/ECCE.2016.7854671

PID4330791 paper600Submitted manuscript, 1.4 MB

AUB Link

Search for the material in Aalborg University Library's search engine

PV2GRID: A Next-Generation Grid Side Converter with Advanced Control and Power Quality Capabilities
Blaabjerg, F., Yang, Y. & Sangwongwanich, A.
Energinet SOV
01/01/2015 → 30/09/2017
Project: Research
Center Of Reliable Power Electronics (CORPE)
Blaabjerg, F., Munk-Nielsen, S., Pedersen, K. & Popok, V.
01/04/2011 → 31/12/2016
Project: Research

Cite this

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title = "A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems",

abstract = "In the case of a wide-scale adoption of grid-connected Photovoltaic (PV) systems, more fluctuated power will be injected into the grid due to the intermittency of solar PV energy. A sudden change in the PV power can potentially induce grid voltage fluctuations, and thus challenge the stability of the grid. Hence, this sudden active power change resulting in a large power ramp-rate should be avoided in practice. In fact, some grid regulations also released strict rules on active power ramp-rates for PV systems. This paper proposes a cost-effective control strategy to limit the power ramp-rate for two-stage grid-connected PV systems. The main concept of the proposed scheme is to modify the maximum power point tracking algorithm in such a way to regulate the PV power at the left side of the maximum power point curve. As a consequence, the power ramp-rate can be controlled according to the set-point. Experiments conducted on a 3-kW single-phase two-stage grid-connected PV system have verified that the proposed solution can accomplish fast dynamics, high accuracy, and high robustness in the power ramp-rate control for PV systems.",

keywords = "Active power control, Ramp power control, Maximum power point tracking, Power curtailment, PV systems, Grid-connected power converters",

author = "Ariya Sangwongwanich and Yongheng Yang and Frede Blaabjerg",

year = "2016",

month = sep,

doi = "10.1109/ECCE.2016.7854671",

language = "English",

booktitle = "Proceedings of the 8th Annual IEEE Energy Conversion Congress and Exposition (ECCE), 2016",

publisher = "IEEE Press",

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Sangwongwanich, A, Yang, Y & Blaabjerg, F 2016, A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems. in Proceedings of the 8th Annual IEEE Energy Conversion Congress and Exposition (ECCE), 2016. IEEE Press, 8th Annual IEEE Energy Conversion Congress & Exposition, Milwaukee, WI, United States, 18/09/2016. https://doi.org/10.1109/ECCE.2016.7854671

A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems. / Sangwongwanich, Ariya; Yang, Yongheng; Blaabjerg, Frede.
Proceedings of the 8th Annual IEEE Energy Conversion Congress and Exposition (ECCE), 2016. IEEE Press, 2016.

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

TY - GEN

T1 - A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems

AU - Sangwongwanich, Ariya

AU - Yang, Yongheng

AU - Blaabjerg, Frede

PY - 2016/9

Y1 - 2016/9

N2 - In the case of a wide-scale adoption of grid-connected Photovoltaic (PV) systems, more fluctuated power will be injected into the grid due to the intermittency of solar PV energy. A sudden change in the PV power can potentially induce grid voltage fluctuations, and thus challenge the stability of the grid. Hence, this sudden active power change resulting in a large power ramp-rate should be avoided in practice. In fact, some grid regulations also released strict rules on active power ramp-rates for PV systems. This paper proposes a cost-effective control strategy to limit the power ramp-rate for two-stage grid-connected PV systems. The main concept of the proposed scheme is to modify the maximum power point tracking algorithm in such a way to regulate the PV power at the left side of the maximum power point curve. As a consequence, the power ramp-rate can be controlled according to the set-point. Experiments conducted on a 3-kW single-phase two-stage grid-connected PV system have verified that the proposed solution can accomplish fast dynamics, high accuracy, and high robustness in the power ramp-rate control for PV systems.

AB - In the case of a wide-scale adoption of grid-connected Photovoltaic (PV) systems, more fluctuated power will be injected into the grid due to the intermittency of solar PV energy. A sudden change in the PV power can potentially induce grid voltage fluctuations, and thus challenge the stability of the grid. Hence, this sudden active power change resulting in a large power ramp-rate should be avoided in practice. In fact, some grid regulations also released strict rules on active power ramp-rates for PV systems. This paper proposes a cost-effective control strategy to limit the power ramp-rate for two-stage grid-connected PV systems. The main concept of the proposed scheme is to modify the maximum power point tracking algorithm in such a way to regulate the PV power at the left side of the maximum power point curve. As a consequence, the power ramp-rate can be controlled according to the set-point. Experiments conducted on a 3-kW single-phase two-stage grid-connected PV system have verified that the proposed solution can accomplish fast dynamics, high accuracy, and high robustness in the power ramp-rate control for PV systems.

KW - Active power control

KW - Ramp power control

KW - Maximum power point tracking

KW - Power curtailment

KW - PV systems

KW - Grid-connected power converters

U2 - 10.1109/ECCE.2016.7854671

DO - 10.1109/ECCE.2016.7854671

M3 - Article in proceeding

BT - Proceedings of the 8th Annual IEEE Energy Conversion Congress and Exposition (ECCE), 2016

PB - IEEE Press

T2 - 8th Annual IEEE Energy Conversion Congress & Exposition

Y2 - 18 September 2016 through 22 September 2016

ER -

A Cost-Effective Power Ramp-Rate Control Strategy for Single-Phase Two-Stage Grid-Connected Photovoltaic Systems

Abstract

Conference

Keywords

Access to Document

AUB Link

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Projects

PV2GRID: A Next-Generation Grid Side Converter with Advanced Control and Power Quality Capabilities

Center Of Reliable Power Electronics (CORPE)

Cite this