Título
Analysis, Tuning of Controllers and Interconnection of a Battery Energy Storage System for Subsynchronous Resonance Mitigation in Wind Farms.
Autor
Roberto Moreno-Sanchez
Colaborador
Nancy Visairo-Cruz
Ciro Nunez
Nivel de Acceso
Acceso Abierto
Materias
Resumen o descripción
Wind generation is the most promising green power for bulk production and, according
to the Global Wind Energy Council (GWEC), each generation of wind turbines becomes
more cost-e cient. Based on GWEC, wind energy conversion systems (WECS) is the best
solution for contributing to climate change. Although this is a promising solution, this
technology brings troubles associated with its topology. The most remarkable issue occurs
because usually, the location of WECS is far away from the consumption facility, as it is
well reported.
For any investment, the location of these wind farms requires thorough planning. At
the same time, environmental awareness questions the construction of additional overhead
transmission lines. In this context, series-compensated transmission lines are an excellent
solution since enabling more power to be transmitted through existing lines at a fraction
of the cost and time expenditure of a new line. However, series-compensated transmission
lines are prone to subsynchronous oscillations originated by subsynchronous resonance.
This is a relatively new phenomenon due to that the rst time it was observed in a WECS
was in 2003.
Considering the context, this Thesis addresses the problem of subsynchronous reso-
nance in series compensated transmission lines using as a benchmark a DFIG-based wind
farm for study case. The aim of this research work is to analyze thoroughly the reasons
that provoke the subsynchronous resonance, putting special focus on its consequences in
DFIG-based wind farms. Also, to explore possible solutions for mitigating this problem,
the incorporation of a battery energy storage system is included and analyzed using math-
ematical tools to determine its in
uence to improve the reliability of the whole system.
As a result, a methodology for tuning the controllers of the back-to-back converter of
the DFIG-based wind farm is performed. Mathematical tools used in power systems are
used to identify the modes related to the subsynchronous resonance, also a mathematical
approach is proposed to understand the causes that produce subsynchronous resonance.
A discrimination and identi cation process for subsynchronous resonance is proposed.
Finally, the integration of a battery energy storage system is studied as a possible scheme
that contributes to improving the facility performance when it lies in a subsynchronous resonance condition; for that purpose, two schemes for the battery energy storage system
are analyzed to the subsynchronous resonance mitigation.
Editor
Facultad de Ingeniería
Fecha de publicación
22 de marzo de 2022
Tipo de publicación
Tesis de doctorado
Versión de la publicación
Versión publicada
Recurso de información
Formato
application/pdf
Idioma
Español
Repositorio Orígen
Repositorio Institucional NINIVE
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