Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC

Burning of fossil fuels and green house gasses causes global warming. This has led to governments to explore the use of green energies instead of fossil fuels. The availability of wind has made wind technology a viable alternative for generating electrical power. Hence, many parts of the world, espe...

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Main Authors: Maleki H., Ramachandaramurthy V.K., Lak M.
Other Authors: 56747561600
Format: Conference paper
Published: Institute of Physics Publishing 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-301242023-12-29T15:44:43Z Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC Maleki H. Ramachandaramurthy V.K. Lak M. 56747561600 6602912020 55414325000 Europe Electric utilities Fossil fuels Global warming Greenhouse gases HVDC power transmission Power converters Wind power Control strategies Direct drive Electrical power Fault ride through capability Green energy Grid code requirements Output voltages Wind technology conference proceeding electrical power global warming greenhouse gas magnetic field renewable resource sustainable development wind farm wind power Electric power transmission networks Burning of fossil fuels and green house gasses causes global warming. This has led to governments to explore the use of green energies instead of fossil fuels. The availability of wind has made wind technology a viable alternative for generating electrical power. Hence, many parts of the world, especially Europe are experiencing a growth in wind farms. However, by increasing the number of wind farms connected to the grid, power quality and voltage stability of grid becomes a matter of concern. In this paper, VSC-HVDC control strategy which enables the wind farm to ride-through faults and regulate voltage for fault types is proposed. The results show that the wind turbine output voltage fulfills the E.ON grid code requirements, when subjected to three phase to ground fault. Hence, continues operation of the wind farm is achieved. � Published under licence by IOP Publishing Ltd. Final 2023-12-29T07:44:43Z 2023-12-29T07:44:43Z 2013 Conference paper 10.1088/1755-1315/16/1/012027 2-s2.0-84881113897 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84881113897&doi=10.1088%2f1755-1315%2f16%2f1%2f012027&partnerID=40&md5=ca114ac853b46c54ae769f2e7aa65fb8 https://irepository.uniten.edu.my/handle/123456789/30124 16 1 12027 All Open Access; Bronze Open Access Institute of Physics Publishing Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Europe
Electric utilities
Fossil fuels
Global warming
Greenhouse gases
HVDC power transmission
Power converters
Wind power
Control strategies
Direct drive
Electrical power
Fault ride through capability
Green energy
Grid code requirements
Output voltages
Wind technology
conference proceeding
electrical power
global warming
greenhouse gas
magnetic field
renewable resource
sustainable development
wind farm
wind power
Electric power transmission networks
spellingShingle Europe
Electric utilities
Fossil fuels
Global warming
Greenhouse gases
HVDC power transmission
Power converters
Wind power
Control strategies
Direct drive
Electrical power
Fault ride through capability
Green energy
Grid code requirements
Output voltages
Wind technology
conference proceeding
electrical power
global warming
greenhouse gas
magnetic field
renewable resource
sustainable development
wind farm
wind power
Electric power transmission networks
Maleki H.
Ramachandaramurthy V.K.
Lak M.
Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
description Burning of fossil fuels and green house gasses causes global warming. This has led to governments to explore the use of green energies instead of fossil fuels. The availability of wind has made wind technology a viable alternative for generating electrical power. Hence, many parts of the world, especially Europe are experiencing a growth in wind farms. However, by increasing the number of wind farms connected to the grid, power quality and voltage stability of grid becomes a matter of concern. In this paper, VSC-HVDC control strategy which enables the wind farm to ride-through faults and regulate voltage for fault types is proposed. The results show that the wind turbine output voltage fulfills the E.ON grid code requirements, when subjected to three phase to ground fault. Hence, continues operation of the wind farm is achieved. � Published under licence by IOP Publishing Ltd.
author2 56747561600
author_facet 56747561600
Maleki H.
Ramachandaramurthy V.K.
Lak M.
format Conference paper
author Maleki H.
Ramachandaramurthy V.K.
Lak M.
author_sort Maleki H.
title Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
title_short Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
title_full Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
title_fullStr Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
title_full_unstemmed Increase in fault ride through capability of direct drive permanent magnet based wind farm using VSC-HVDC
title_sort increase in fault ride through capability of direct drive permanent magnet based wind farm using vsc-hvdc
publisher Institute of Physics Publishing
publishDate 2023
_version_ 1806428057904349184