Journal of Water and Climate Change,
Journal Year:
2024,
Volume and Issue:
15(8), P. 3939 - 3965
Published: July 8, 2024
ABSTRACT
Global
climate
change
is
a
phenomenon
resulting
from
the
complex
interaction
of
human
influences
and
natural
factors.
These
changes
lead
to
imbalances
in
systems
as
activities
such
greenhouse-gas
emissions
increase
atmospheric
gas
concentrations.
This
situation
affects
frequency
intensity
events
worldwide,
with
floods
being
one
them.
Floods
manifest
water
inundations
due
factors
rainfall
patterns,
rising
temperatures,
erosion,
sea-level
rise.
cause
significant
damage
sensitive
areas
residential
areas,
agricultural
lands,
river
valleys,
coastal
regions,
adversely
impacting
people's
lives,
economies,
environments.
Therefore,
flood
risk
has
been
investigated
decision-making
processes
Diyarbakır
province
using
analytical
hierarchy
process
(AHP)
method
future
disaggregation
global
model
data.
HadGEM-ES,
GFDL-ESM2M,
MPI-ESM-MR
models
RCP4.5
RCP8.5
scenarios
were
used.
Model
data
disaggregated
equidistance
quantile
matching
method.
The
study
reveals
flood-risk
findings
HadGEM-ES
while
no
was
found
GFDL-ESM2M
models.
In
AHP
method,
analysis
conducted
based
on
historical
across
interpreted
alongside
Water,
Journal Year:
2024,
Volume and Issue:
16(13), P. 1825 - 1825
Published: June 27, 2024
In
this
study,
a
multi-stage
planning
framework
was
constructed
by
using
SWMM
simulation
modeling
and
NSGA-II
applied
to
optimize
the
layout
of
integrated
grey–green
infrastructure
(IGGI)
under
land
use
change
climate
scenarios.
The
scenarios
were
determined
based
on
master
plan
study
area,
with
imperviousness
50.7%
62.0%
for
stage
1
2,
respectively.
Rainfall
trends
2
Earth-E3
from
CMIP6
model.
rainfall
in
increased
14.9%
1.
Based
these
two
scenarios,
spatial
configuration
IGGI
layouts
different
degrees
centralization
(DCL)
phases
optimized,
lowest
life
cycle
cost
(LCC)
as
optimization
objective.
results
showed
that
DCL
=
0
had
better
performance
terms
LCC.
LCC
only
66.9%
90.9%.
Tech-R,
than
Furthermore,
average
technological
resilience
(Tech-R)
index
0.8–3.4%
higher
Tech-R
indices
all
layouts,
TOPSIS
used
compare
stages,
it
best
economic
benefits.
will
be
useful
exploring
urban
drainage
systems
sustainable
stormwater
management.
Journal of Water and Climate Change,
Journal Year:
2024,
Volume and Issue:
15(8), P. 3939 - 3965
Published: July 8, 2024
ABSTRACT
Global
climate
change
is
a
phenomenon
resulting
from
the
complex
interaction
of
human
influences
and
natural
factors.
These
changes
lead
to
imbalances
in
systems
as
activities
such
greenhouse-gas
emissions
increase
atmospheric
gas
concentrations.
This
situation
affects
frequency
intensity
events
worldwide,
with
floods
being
one
them.
Floods
manifest
water
inundations
due
factors
rainfall
patterns,
rising
temperatures,
erosion,
sea-level
rise.
cause
significant
damage
sensitive
areas
residential
areas,
agricultural
lands,
river
valleys,
coastal
regions,
adversely
impacting
people's
lives,
economies,
environments.
Therefore,
flood
risk
has
been
investigated
decision-making
processes
Diyarbakır
province
using
analytical
hierarchy
process
(AHP)
method
future
disaggregation
global
model
data.
HadGEM-ES,
GFDL-ESM2M,
MPI-ESM-MR
models
RCP4.5
RCP8.5
scenarios
were
used.
Model
data
disaggregated
equidistance
quantile
matching
method.
The
study
reveals
flood-risk
findings
HadGEM-ES
while
no
was
found
GFDL-ESM2M
models.
In
AHP
method,
analysis
conducted
based
on
historical
across
interpreted
alongside
