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Document Description
Title
Rainfall
distribution
in the
city
of
St.John's:
temporal
distribution
,
spatial
variation
,
frequency
analysis
, and
Tropical
Storm
Gabrielle
Author
Wadden
,
David
,
1962-
Description
Thesis
(M.Eng.)--Memorial
University
of
Newfoundland
,
2002.
Engineering
and
Applied
Science
Date
2002
Pagination
xii, 122 leaves : col. ill., col. maps
Subject
Rain
and
rainfall--Newfoundland
and
Labrador--St.
John's;
Rainfall
frequencies--Newfoundland
and
Labrador--St.
John's;
Tropical
Storm
Gabrielle
,
2001
Degree
M.Eng.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Spatial Coverage
Canada--Newfoundland and Labrador--St. John's
Temporal Coverage
1997-2001
20th Century
21st Century
Notes
Bibliography:
leaves
78-80.
Abstract
The
evaluation
of
rainfall
distribution
throughout
the
City
of
St.
John's
,
Newfoundland
, was
performed:
to
investigate
the
temporal
distribution
of
rainfall
across
the
City;
to
compare
the
spatial
variations
of
concurrent
rainfall
events
at the
City's
three
rain
gage
stations
, to
determine
the
most
appropriate
probability
distribution
for the
frequency
analysis
of
rainfall;
to
update
the
IDF
curves
for the
City
of
St.
John's;
and to
analyze
the
extreme
rainfall
event
of
September
19
,
2001
,
which
resulted
from
Tropical
Storm
Gabrielle.
--
The
temporal
distribution
of
rainfall
in the
City
of
St.
John's
was
examined
resulting
in the
determination
of a
family
of
probability
curves
(10%
through
90%)
,
which
related
percent
storm
rainfall
to
percent
storm
duration
, for
both
single
station
rain
gages
and the
Network
Mean.
The
method
utilized
was
similar
to
Huff
(1967)
except
that
storms
were not
grouped
by the
quartile
which
had the
most
rainfall
accumulation
but
instead
all
storms
were
analyzed
as a
single
group.
The
analysis
indicated
that the
temporal
distribution
for the
Network
Mean
was
similar
to the
results
obtained
for
each
of the
single
station
rain
gages
and that
it
was
appropriate
to
represent
the
time
distribution
of
rainfall
,
across
the
City
of
St.
John's
, by a
Network
Mean
distribution
that was
applicable
for
all
storm
durations.
The
proposed
Network
Mean
distribution
was then
compared
to the
AES
Mean
,
Huff
, and
SCS
temporal
distributions.
It
was
concluded
that the
20%
Network
Mean
distribution
was the
most
appropriate
for the
City
of
St.
John's
in
all
cases
except
the
12-hour
event
where
the
AES
Mean
distribution
should be
used.
--
The
spatial
variation
of
rainfall
was
analyzed
using
concurrent
rainfall
events
, from the
City's
Windsor
Lake
,
Ruby
Line
, and
Bladder
Avenue
rain
gage
stations.
The
analyses
indicated
that the
spatial
variation
of
rainfall
fluctuated
across
the
City
on a
storm
by
storm
basis
and
that
, on
average
, the
rainfall
depths
were
greater
in the
Northeast
at
Windsor
Lake.
It
was also
shown
that the
data
from the
AES
rain
gage
at the
St.
John's
Airport
could
be
combined
with the
data
from
Windsor
Lake
to
provide
an
extended
database
for
IDF
analysis.
--
The
frequency
analysis
of
annual
extremes
for the
combined
database
of
Windsor
Lake
and
St.
John's
Airport
was
performed.
The
results
indicated
that the
previously
assumed
AES
Extreme
Value
Type
1
(EV1)
distribution
was
no
longer
appropriate
for the
frequency
analysis
of
annual
rainfall
extrema
and that the
Lognormal
(LN)
distribution
was the
best
fit.
Updated
IDF
curves
were
prepared
,
based
on the
combined
database
and the
LN
distribution
, and
it
was
found
that the
new
curves
, on
average
,
gave
slightly
higher
rainfall
intensities
for
various
return
periods
and
durations.
--
The
rainfall
event
of
September
19
,
2001
,
resulting
from
Tropical
Storm
Gabrielle
, was also
examined.
The
temporal
distribution
of
rainfall
across
the
City
for this
event
was
uniform
and
best
represented
by the
AES
12
hour
distribution.
The
rainfall
generated
by
Tropical
Storm
Gabrielle
varied
across
the
City
with a
maximum
difference
of
61.9mm
between
stations.
The
frequency
analysis
of this
event
indicated
that the
2-hour
,
6-hour
,
12-
hour
, and
24-hour
rainfall
maxima
all
exceeded
the
100
year
return
period.
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
a1591249
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
(12.83
MB)
--
http://collections.mun.ca/PDFs/theses/DavidWadden.pdf
CONTENTdm file name
49867.cpd
