Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms

Mario Ndreko; Jose Rueda Torres; Marjan Popov; Mart van der Meijden

doi:10.1109/PSCC.2016.7540960

Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms

Mario Ndreko, Jose Rueda Torres, Marjan Popov, Mart van der Meijden

Intelligent Electrical Power Grids

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

This paper proposes a new methodology for the optimal compliance of type-4 wind power plants in VSC-HVDC grid connection with the typical Fault-Ride-Through (FRT) requirements. Unlike the traditional chopper based solution, an improved offshore AC voltage droop FRT strategy, which is communication free and ensures robust faulted dynamic response is proposed to achieve FRT compliance. The calculation of the best parameters that enable successful FRT compliance is formulated as an optimization problem. The objective function aims at minimizing the electrical stresses imposed at the HVDC system and at the offshore wind power plants during the FRT and the post-FRT period, while simultaneously ensuring FRT compliance for the HVDC system and the wind power plants. The optimization is tackled based on an iterative procedure that combines dynamic modelling of the HVDC system and the connected offshore wind power plants, with a genetic algorithm based search process. Numerical results for a point-to-point connection that is extended to the three terminal HVDC grid connection case are demonstrated.

Original language	English
Title of host publication	19th Power Systems Computation Conference, PSCC 2016
Place of Publication	Piscataway, NJ
Publisher	IEEE
Pages	1-7
Number of pages	7
ISBN (Electronic)	978-88-941051-2-4
DOIs	https://doi.org/10.1109/PSCC.2016.7540960
Publication status	Published - 2016
Event	19th Power Systems Computation Conference, PSCC 2016 - Genova, Italy Duration: 20 Jun 2016 → 24 Jun 2016

Conference

Conference	19th Power Systems Computation Conference, PSCC 2016
Country/Territory	Italy
City	Genova
Period	20/06/16 → 24/06/16

Keywords

Genetic Algorithm
Optimal LVRT strategy
HVDC transmission
Grid Codes
Offshore wind power generation

Access to Document

10.1109/PSCC.2016.7540960

Cite this

@inproceedings{d87aba4b83e94cd195c963717e6bf7bf,

title = "Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms",

abstract = "This paper proposes a new methodology for the optimal compliance of type-4 wind power plants in VSC-HVDC grid connection with the typical Fault-Ride-Through (FRT) requirements. Unlike the traditional chopper based solution, an improved offshore AC voltage droop FRT strategy, which is communication free and ensures robust faulted dynamic response is proposed to achieve FRT compliance. The calculation of the best parameters that enable successful FRT compliance is formulated as an optimization problem. The objective function aims at minimizing the electrical stresses imposed at the HVDC system and at the offshore wind power plants during the FRT and the post-FRT period, while simultaneously ensuring FRT compliance for the HVDC system and the wind power plants. The optimization is tackled based on an iterative procedure that combines dynamic modelling of the HVDC system and the connected offshore wind power plants, with a genetic algorithm based search process. Numerical results for a point-to-point connection that is extended to the three terminal HVDC grid connection case are demonstrated.",

keywords = "Genetic Algorithm, Optimal LVRT strategy, HVDC transmission, Grid Codes, Offshore wind power generation",

author = "Mario Ndreko and {Rueda Torres}, Jose and Marjan Popov and {van der Meijden}, Mart",

year = "2016",

doi = "10.1109/PSCC.2016.7540960",

language = "English",

pages = "1--7",

booktitle = "19th Power Systems Computation Conference, PSCC 2016",

publisher = "IEEE",

address = "United States",

note = "19th Power Systems Computation Conference, PSCC 2016 ; Conference date: 20-06-2016 Through 24-06-2016",

}

Ndreko, M, Rueda Torres, J , Popov, M & van der Meijden, M 2016, Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms. in 19th Power Systems Computation Conference, PSCC 2016. IEEE, Piscataway, NJ, pp. 1-7, 19th Power Systems Computation Conference, PSCC 2016, Genova, Italy, 20/06/16. https://doi.org/10.1109/PSCC.2016.7540960

Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms. / Ndreko, Mario; Rueda Torres, Jose ; Popov, Marjan et al.
19th Power Systems Computation Conference, PSCC 2016. Piscataway, NJ: IEEE, 2016. p. 1-7.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms

AU - Ndreko, Mario

AU - Rueda Torres, Jose

AU - Popov, Marjan

AU - van der Meijden, Mart

PY - 2016

Y1 - 2016

N2 - This paper proposes a new methodology for the optimal compliance of type-4 wind power plants in VSC-HVDC grid connection with the typical Fault-Ride-Through (FRT) requirements. Unlike the traditional chopper based solution, an improved offshore AC voltage droop FRT strategy, which is communication free and ensures robust faulted dynamic response is proposed to achieve FRT compliance. The calculation of the best parameters that enable successful FRT compliance is formulated as an optimization problem. The objective function aims at minimizing the electrical stresses imposed at the HVDC system and at the offshore wind power plants during the FRT and the post-FRT period, while simultaneously ensuring FRT compliance for the HVDC system and the wind power plants. The optimization is tackled based on an iterative procedure that combines dynamic modelling of the HVDC system and the connected offshore wind power plants, with a genetic algorithm based search process. Numerical results for a point-to-point connection that is extended to the three terminal HVDC grid connection case are demonstrated.

AB - This paper proposes a new methodology for the optimal compliance of type-4 wind power plants in VSC-HVDC grid connection with the typical Fault-Ride-Through (FRT) requirements. Unlike the traditional chopper based solution, an improved offshore AC voltage droop FRT strategy, which is communication free and ensures robust faulted dynamic response is proposed to achieve FRT compliance. The calculation of the best parameters that enable successful FRT compliance is formulated as an optimization problem. The objective function aims at minimizing the electrical stresses imposed at the HVDC system and at the offshore wind power plants during the FRT and the post-FRT period, while simultaneously ensuring FRT compliance for the HVDC system and the wind power plants. The optimization is tackled based on an iterative procedure that combines dynamic modelling of the HVDC system and the connected offshore wind power plants, with a genetic algorithm based search process. Numerical results for a point-to-point connection that is extended to the three terminal HVDC grid connection case are demonstrated.

KW - Genetic Algorithm

KW - Optimal LVRT strategy

KW - HVDC transmission

KW - Grid Codes

KW - Offshore wind power generation

U2 - 10.1109/PSCC.2016.7540960

DO - 10.1109/PSCC.2016.7540960

M3 - Conference contribution

SP - 1

EP - 7

BT - 19th Power Systems Computation Conference, PSCC 2016

PB - IEEE

CY - Piscataway, NJ

T2 - 19th Power Systems Computation Conference, PSCC 2016

Y2 - 20 June 2016 through 24 June 2016

ER -

Optimal FRT Compliance of Offshore Wind Power Plants in VSC-HVDC Connection based on Genetic Algorithms

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Conference

Keywords

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