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Document Description
Title
An
integrated
approach
for
assessing
human
health
risk
in
process
facility
Author
Saif
,
Sadia.
Description
Thesis
(M.Eng.)--Memorial
University
of
Newfoundland
,
2010.
Engineering
and
Applied
Science
Date
2009.
Pagination
xx, 92 leaves : col. ill.
Subject
Chemical
plants--Risk
assessment;
Chemical
processes--Safety
measures--Planning;
Chemical
workers--Health
risk
assessment;
Health
risk
assessment
Degree
M.Eng.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Notes
Includes
bibliographical
references
(leaves
79-78)
Abstract
Chemical
process
industries
are
often
prone
to
undesired
incidences
and
accidents.
Release
of
toxic
chemicals
is
one
of
such
incidences
which
may
lead
to
human
health
hazard
resulting
in
potential
loss
in
process
facility.
In
order
to
prevent
these
unwanted
health
effects
process
safety
management
programmes
(PSM)
are
adopted.
Process
safety
management
involves
a
systematic
evaluation
of
hazards
and
necessary
measures
to
mitigate
them.
Continuous
monitoring
and
effective
approaches
for
risk
modeling
may
prevent
these
catastrophic
situations.
The
present
study
is
conducted
by
developing
the
methodology
to
assess
the
human
health
risk
in
process
facility
using
quantitative
methods
,
available
data
and
standards.
--
Quantitative
Risk
Assessment
(QRA)
is
a
process
of
identifying
and
evaluating
the
risk.
The
application
of
QRA
in
process
facility
involves
development
of
methods
and
techniques
to
assess
and
minimize
the
risk
as
well
as to
help
analyzing
the
undesired
incidences
together
with the
related
consequences.
Two
types
of
approaches
of
QRA
are
presently
being
used
for
human
health
risk
assessment.
One
is
deterministic
approach
and the
other
is
probabilistic
approach.
Probabilistic
approach
provides
better
estimates
in
certain
cases
where
uncertainties
are
involved.
--
Probabilistic
Risk
Assessment
(PRA)
is
a
reliable
method
to
quantify
human
health
risk.
This
involves
characterization
of
human
health
risk
considering
the
uncertainty
and
variability
of
exposure
parameters.
Probabilistic
analysis
allows
to
gather
information
about
the
range
and
likelihood
of
exposure
and
helps
decision
makers
to
take
further
decision.
In
addition
to
that
,
Bayesian
probability
analysis
has also been
used
for
developing
a
risk
model
to
characterize
the
human
health
risk.
--
In this
thesis
an
integrated
approach
to
assess
human
health
risk
is
described
and
applied
for
past
and
current
exposure
data
directly
extracted
from
secondary
sources.
First
, the
hazards
were
identified
and
represented
based
on
chronic
studies.
Again
, the
mixed
chemical
exposure
is
analyzed
using
two
established
statistical
methods
and
available
epidemiological
information.
Two
exposure-response
models
are
developed
applying
these
data.
Subsequently
, the
toxicity
of the
chemicals
are
assessed
applying
BMD
approach
to
derive
the
toxicity
values
, the
toxicity
score
of the
chemicals
as
well
as a
safe
exposure
level
for
workplace
using
experimental
animal
data.
And
,
finally
a
risk
model
has been
developed
to
quantify
the
human
health
risk
applying
the
Bayesian
Monte
Carlo
Analysis.
This
risk
model
predicts
risk
using
past
and
current
exposure
data.
The
past
exposure
data
is
the
mortality
data
of
worker
from the
Clydach
Wales
nickel
refinery
and the
current
exposure
considers
the
high
risk
operations
(High
temperature
operations
and
feed
preparation)
in
process
facility.
The
risk
model
compares
the
human
health
risks
from
past
and
present
nickel
exposure.
The
sensitivity
report
is
represented
using
the
risk
models
and
Advanced
Monte
Carlo
Simulation
of
Latin
Hypercube
Sampling
(LHS)
which
describes
the
relative
importance
of
exposure
parameters
quantifying
risk.
Type
Text
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a3301961
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
(11.21
MB)
--
http://collections.mun.ca/PDFs/theses/Saif_Sadia.pdf
CONTENTdm file name
103653.cpd
