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Document Description
Title
Performance
and
reliability
comparison
of
grid
connected
small
wind
turbine
systems
Author
Arifujjaman
,
Md
Description
Thesis
(Ph.D.)--Memorial
University
of
Newfoundland
,
2010.
Engineering
and
Applied
Science
Date
2010
Pagination
xxxii, 177 leaves : ill.
Subject
Electric
power
systems--Control;
Wind
energy
conversion
systems--Reliability;
Wind
turbines--Reliability
Degree
Ph.D.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Notes
Bibliography:
leaves
150-165.
Abstract
Small
wind
energy
conversion
systems
are
electromechanical
devices
that
generate
electricity
from
wind
power
for
use
in
commercial
as
well
as
residential
applications.
System
level
comparison
pertaining
to
such
conversion
systems
is
an
important
and
challenging
problem
and
in-depth
analysis
is
essential
for
high
penetration
of
wind
power.
A
set
of
unique
problems
associated
with this
technology
requires
that the
maximum
power
point
tracking
control
be
achieved
through
a
simple
,
efficient
, and
most
importantly
,
highly
reliable
manner.
This
research
identifies
these
challenges
and
subsequently
presents
a
comparison
in
terms
of the
performance
and
reliability
of a
furling
control
grid
connected
Permanent
Magnet
Generator
(PMG)
and
Wound
Rotor
Induction
Generator
(WRIG)-based
small
wind
turbine
system.
The
power
conditioning
system
for
grid
connection
of the
PMG-based
system
requires
a
rectifier
,
boost
converter
and a
grid-tie
inverter
,
while
the
WRIG-based
system
employs
a
rectifier
, a
switch
and an
external
resistance
in the
rotor
side
with the
stator
directly
connected
to the
grid.
The
proposed
research
develops
the
system
level
mathematical
model
for the
power
conditioning
system
losses
that
fluctuates
with the
wind
speed.
It
is
found
by the
simulation
that
compared
to the
PMG-based
system
, the
WRIG-based
system
can
provide
low
power
losses
at
low
wind
speeds
,
thus
resolving
the
typical
obstacle
of
variable
speed
operation.
The
comparison
is
further
enhanced
by
investigating
the
annual
energy
capture
,
annual
energy
loss
and
efficiency
for the
wind
speed
information
of
eight
test
sites
in
Newfoundland
and
Labrador
,
Canada:
Battle
Harbour
(BH);
Cartwright
(CW);
Little
Bay
Island
(LB);
Mary's
Harbour
(MH);
Nain
(NA)
,
Ramea
(RA);
St.
Brendan's
(SB);
and
St.
John's
(SJ).
It
is
demonstrated
that the
WRIG-based
system
yields
lower
energy
loss
which
results
in a
system
of
higher
efficiency
for a
wind
speed
of
2
m/s
(cut-in)
to
17
m/s
(cut-out).
Furthermore
,
experimental
test
benches
are
developed
for
both
systems
based
on a
wind
turbine
emulator
that
incorporates
furling
control
and
associated
dynamics
, as
well
as
power
conditioning
systems
required
for
variable
speed
operation.
The
maximum
power
extraction
to the
grid
for
both
systems
is
ensured
by
tracking
the
optimum
tip
speed
ratio.
The
experimental
energy
production
is
calculated
for the
regions
considered
during
simulation.
It
is
found
that the
WRIG-based
system
provides
2%
more
efficiency
than the
PMG-based
system
and
corresponds
well
with the
simulated
conclusion.
--
Additionally
, the
reliability
of the
power
conditioning
system
for the
systems
is
analyzed
at a
predetermined
wind
speed.
The
analysis
reveals
that the
Mean
Time
Between
Failures
(MTBF)
of the
power
conditioning
system
of the
WRIG-based
system
is
much
longer
than the
MTBF
of the
power
conditioning
system
of the
PMG-based
system.
The
investigation
is
extended
to
identify
the
least
reliable
component
within
the
power
conditioning
system
for
both
systems.
It
is
shown
that the
inverter
has the
dominant
effect
on the
system
reliability
for the
PMG-based
system
,
while
the
rectifier
is
the
least
reliable
component
for the
WRIG-based
system.
This
research
finally
concludes
that the
WRIG-
based
small
wind
turbine
system
with a
simple
power
conditioning
system
is
a
much
better
option
for a
small
wind
energy
conversion
system.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a3506844
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(8.05
MB)
--
http://collections.mun.ca/PDFs/theses/Arifujjaman_MD.pdf
CONTENTdm file name
7779.cpd
