Skip to main content
Register
Springer Professional
SEARCH
MENU 1 2 3 4
main-content
Top

Hint

Swipe to navigate through the chapters of this book

Published in:
Modelling of Photovoltaic Systems for Real-Time Hardware Simulation Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Optimization of Offshore Wind Farms with HVAC and HVDC Transmission Networks

Authors: Asma Dabbabi, Salvy Bourguet, Rodica Loisel, Mohamed Machmoum

Published in: ELECTRIMACS 2019

Publisher: Springer International Publishing

Login to get access
share
SHARE

Abstract

Recently, offshore wind farms have attracted more and more attention because of their greater energy capacity. To get the best performances of a wind farm park, a technical and economic compromise between energy yields and overall investment must be established. In this paper, a study was done on Borssele I & II offshore wind farm with HVAC and HVDC transmission technologies to compare their performances with different transmission distances.
previous chapter Sensorless Control Strategy for Switched Reluctance Traction Drive Based on High Frequency Injection
next chapter Low-Side MOSFET Current Sensing Technique for Automotive Applications
Literature
1.
International Renewable Energy Agency, IRENA, Renewable Energy Prospects for the European Union (IRENA, Abu Dhabi, 2018)
2.
P. Monjean, Optimisation de l’architecture et des flux énergétiques de centrales à énergies renouvelables offshore et onshore équipées de liaisons en continu, PhD Thesis in Electrical Engineering, National School of Arts and Crafts, 2012
3.
S. Gasnier et al., Technical economic assessment tool for offshore wind generation connection scheme: application to comparing 33 kV and 66 kV AC collector grids, in the 18th European Conference on Power Electronics and Applications (EPE‘16 ECCE Europe), 2016
4.
O. Dahmani, Modélisation, optimisation et analyse de fiabilité de topologies électriques AC de parcs éoliens offshore, PhD Thesis in Electrical Engineering, University of Nantes, 2014
5.
6.
S. Fragoso Rodrigues, A multi-objective optimization framework for the design of offshore wind farms, PhD Thesis in Electrical Engineering, Delft University of Technology, 2016
7.
ABB, XLPE Submarine Cable Systems - Attachment to XLPE Land Cable Systems - User’s Guide (ABB, Lyckeby, Sweden, 2010)
8.
J. Beerten, Modeling and control of DC grids, Dissertation presented in partial fulfillment of the requirements for the degree of Doctor in Engineering Science, ARENBERG Doctoral School, 2013
9.
J. Beerten, S. Cole, R. Belmans, A sequential AC/DC power flow algorithm for networks containing multi-terminal VSC HVDC systems, IEEE, Power and Energy Society General Meeting, 2010
10.
J. Beerten, S. Cole, R. Belmans, Generalized steady state VSC MTDC model for sequential AC/DC power flow algorithms. IEEE Trans Power Syst, 27, 821–829 (2012)
11.
R.L. Joaquin, Power transmission systems for offshore wind farms: technical-economic analysis, Bachelor Thesis, Polytechnic University of Catalunya, 2015
12.
J. Beerten, R. Belmans, Development of an open source power flow software for HVDC grids and hybrid AC/DC systems: MatACDC. IET Gener. Transm. Distrib. 9(10), 966–974 (2015) CrossRef
Metadata
Title
Optimization of Offshore Wind Farms with HVAC and HVDC Transmission Networks
Authors
Asma Dabbabi
Salvy Bourguet
Rodica Loisel
Mohamed Machmoum
Copyright Year
2020
Book
ELECTRIMACS 2019

Print ISBN: 978-3-030-37160-9

Electronic ISBN: 978-3-030-37161-6

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-37161-6_9

Premium Partner

Neuer Inhalt
    Image Credits

    Version: 0.2074.0