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Review of DC System Technologies for Large Scale Integration of Wind Energy Systems with Electricity Grids

Author

Listed:
  • Sheng Jie Shao

    (School of Electrical and Information Engineering, University of Sydney, 2006, NSW, Australia)

  • Vassilios G. Agelidis

    (School of Electrical and Information Engineering, University of Sydney, 2006, NSW, Australia)

Abstract

The ever increasing development and availability of power electronic systems is the underpinning technology that enables large scale integration of wind generation plants with the electricity grid. As the size and power capacity of the wind turbine continues to increase, so is the need to place these significantly large structures at off-shore locations. DC grids and associated power transmission technologies provide opportunities for cost reduction and electricity grid impact minimization as the bulk power is concentrated at single point of entry. As a result, planning, optimization and impact can be studied and carefully controlled minimizing the risk of the investment as well as power system stability issues. This paper discusses the key technologies associated with DC grids for offshore wind farm applications.

Suggested Citation

  • Sheng Jie Shao & Vassilios G. Agelidis, 2010. "Review of DC System Technologies for Large Scale Integration of Wind Energy Systems with Electricity Grids," Energies, MDPI, vol. 3(6), pages 1-17, June.
    • Handle: RePEc:gam:jeners:v:3:y:2010:i:6:p:1303-1319:d:8747
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    Citations

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    Cited by:

    1. Amirreza Naderipour & Zulkurnain Abdul-Malek & Saber Arabi Nowdeh & Foad H. Gandoman & Mohammad Jafar Hadidian Moghaddam, 2019. "A Multi-Objective Optimization Problem for Optimal Site Selection of Wind Turbines for Reduce Losses and Improve Voltage Profile of Distribution Grids," Energies, MDPI, vol. 12(13), pages 1-15, July.
    2. Eissa (SIEEE), M.M., 2015. "Protection techniques with renewable resources and smart grids—A survey," Renewable and Sustainable Energy Reviews, Elsevier, vol. 52(C), pages 1645-1667.
    3. Alessandra Follo & Oscar Saborío-Romano & Elisabetta Tedeschi & Nicolaos A. Cutululis, 2021. "Challenges in All-DC Offshore Wind Power Plants," Energies, MDPI, vol. 14(19), pages 1-15, September.
    4. Perveen, Rehana & Kishor, Nand & Mohanty, Soumya R., 2014. "Off-shore wind farm development: Present status and challenges," Renewable and Sustainable Energy Reviews, Elsevier, vol. 29(C), pages 780-792.
    5. Haipeng Xie & Zhaohong Bie & Yanling Lin & Chao Zheng, 2017. "A Hybrid Reliability Evaluation Method for Meshed VSC-HVDC Grids," Energies, MDPI, vol. 10(7), pages 1-17, July.
    6. Roland Ryndzionek & Łukasz Sienkiewicz, 2020. "Evolution of the HVDC Link Connecting Offshore Wind Farms to Onshore Power Systems," Energies, MDPI, vol. 13(8), pages 1-17, April.
    7. Mohsin Ali Koondhar & Ghulam Sarwar Kaloi & Abdul Sattar Saand & Sadullah Chandio & Wonsuk Ko & Sisam Park & Hyeong-Jin Choi & Ragab Abdelaziz El-Sehiemy, 2023. "Critical Technical Issues with a Voltage-Source-Converter-Based High Voltage Direct Current Transmission System for the Onshore Integration of Offshore Wind Farms," Sustainability, MDPI, vol. 15(18), pages 1-21, September.
    8. Rodrigo Teixeira Pinto & Sílvio Fragoso Rodrigues & Edwin Wiggelinkhuizen & Ricardo Scherrer & Pavol Bauer & Jan Pierik, 2012. "Operation and Power Flow Control of Multi-Terminal DC Networks for Grid Integration of Offshore Wind Farms Using Genetic Algorithms," Energies, MDPI, vol. 6(1), pages 1-26, December.
    9. Ji Han & Shihong Miao & Jing Yu & Yifeng Dong & Junxian Hou & Simo Duan & Lixing Li, 2018. "Multi-Rate and Parallel Electromagnetic Transient Simulation Considering Nonlinear Characteristics of a Power System," Energies, MDPI, vol. 11(2), pages 1-15, February.
    10. Madariaga, A. & Martín, J.L. & Zamora, I. & Martínez de Alegría, I. & Ceballos, S., 2013. "Technological trends in electric topologies for offshore wind power plants," Renewable and Sustainable Energy Reviews, Elsevier, vol. 24(C), pages 32-44.

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