Engineering Science & Technology Journal,
Год журнала:
2024,
Номер
5(10), С. 2911 - 2933
Опубликована: Окт. 16, 2024
The
demand
for
sustainable
materials
in
energy
harvesting
technologies
has
led
to
significant
advancements,
particularly
the
development
of
biodegradable
solutions
nuclear
applications.
This
conceptual
framework
explores
innovations
corrosion-resistant
that
combine
sustainability
with
enhanced
performance
systems.
integration
into
applications
presents
an
opportunity
reduce
environmental
impact
while
maintaining
efficiency
and
safety
standards
harsh
conditions.
review
focuses
on
dual
challenge
corrosion
resistance
biodegradability,
which
are
critical
long-term
operation
environments.
Traditional
used
reactors,
such
as
stainless
steels
superalloys,
often
struggle
disposal
issues.
By
contrast,
offer
potential
these
challenges,
recent
providing
sufficient
radiation
corrosive
investigates
properties
polymers,
composites,
coatings
have
been
adapted
A
central
theme
this
is
application
nanostructured
hybrid
designed
withstand
extreme
conditions
within
reactors.
These
exhibit
self-healing
passivation
capabilities,
contributing
their
resistance.
also
discusses
various
strategies
optimizing
materials,
including
surface
treatments,
alloying,
coating
techniques,
enhance
both
durability.
Moreover,
highlights
ongoing
research
bio-based
scalability
Although
challenges
remain
ensuring
consistent
over
extended
periods,
prospects
integrating
biodegradable,
systems
promising.
In
conclusion,
outlines
revolutionizing
by
addressing
resistance,
sustainability,
material
lifecycle
management.
Continued
innovation
field
could
transform
technologies,
driving
shift
toward
greener,
more
systems..
Keywords:
Sustainable
Materials,
Corrosion
Resistance,
Energy
Harvesting,
Biodegradable
Solutions,
Nuclear
Applications,
Nanostructured
Bio-Based
Composites.
Engineering Science & Technology Journal,
Год журнала:
2024,
Номер
5(8), С. 2562 - 2575
Опубликована: Авг. 22, 2024
This
paper
presents
a
conceptual
framework
for
optimizing
hydrocarbon
recovery
by
integrating
petrophysical
field
studies
with
geological
and
engineering
data.
The
is
designed
to
enhance
the
accuracy
of
reservoir
characterization
improve
decision-making
processes
in
exploration
production.
Key
components
include
systematic
collection
integration
data,
development
static
dynamic
models,
application
advanced
technologies
such
as
artificial
intelligence
(AI)
machine
learning
(ML).
By
offering
more
comprehensive
understanding
properties
behavior,
allows
precise
well
placement,
tailored
production
strategies,
effective
implementation
enhanced
techniques.
potential
impact
this
on
success
rates
efficiency
significant,
promising
reduce
operational
risks
increase
rates.
Furthermore,
discusses
challenges
associated
data
model
validation,
providing
solutions
suggesting
future
research
directions
refine
further
framework.
Integrating
emerging
highlighted
critical
advancing
framework's
capabilities,
ensuring
its
relevance
an
evolving
energy
landscape.
Keywords:
Hydrocarbon
Recovery,
Petrophysical
Studies,
Reservoir
Characterization,
Data
Integration,
Advanced
Technologies.
International Journal of Applied Research in Social Sciences,
Год журнала:
2024,
Номер
6(8), С. 1902 - 1915
Опубликована: Авг. 21, 2024
Core/logging
contract
management
is
a
critical
aspect
of
the
resource
extraction
industry,
involving
meticulous
drafting,
negotiation,
execution,
and
monitoring
contracts
related
to
geological
sampling
logging
activities.
This
review
explores
best
practices
innovations
in
core/logging
management,
highlighting
importance
clear
comprehensive
effective
risk
strategies,
rigorous
performance
monitoring,
adherence
legal
compliance
standards.
Additionally,
integrating
technological
advancements
such
as
digital
systems,
blockchain,
data
analytics
examined,
along
with
innovative
process
improvements
incorporating
sustainable
practices.
Despite
benefits
these
innovations,
challenges
remain,
including
regulatory
complexities,
issues,
need
for
enhanced
stakeholder
collaboration.
Future
trends
point
towards
increased
adoption
twins,
smart
contracts,
advanced
analytics,
emphasizing
necessity
continuous
adaptation
proactive
management.
By
adopting
embracing
practitioners
can
enhance
efficiency,
transparency,
reliability
ultimately
leading
more
successful
project
outcomes.
Keywords:
Risk
Technological
Sustainable
practices,
Data
analytics.
Engineering Science & Technology Journal,
Год журнала:
2024,
Номер
5(10), С. 2911 - 2933
Опубликована: Окт. 16, 2024
The
demand
for
sustainable
materials
in
energy
harvesting
technologies
has
led
to
significant
advancements,
particularly
the
development
of
biodegradable
solutions
nuclear
applications.
This
conceptual
framework
explores
innovations
corrosion-resistant
that
combine
sustainability
with
enhanced
performance
systems.
integration
into
applications
presents
an
opportunity
reduce
environmental
impact
while
maintaining
efficiency
and
safety
standards
harsh
conditions.
review
focuses
on
dual
challenge
corrosion
resistance
biodegradability,
which
are
critical
long-term
operation
environments.
Traditional
used
reactors,
such
as
stainless
steels
superalloys,
often
struggle
disposal
issues.
By
contrast,
offer
potential
these
challenges,
recent
providing
sufficient
radiation
corrosive
investigates
properties
polymers,
composites,
coatings
have
been
adapted
A
central
theme
this
is
application
nanostructured
hybrid
designed
withstand
extreme
conditions
within
reactors.
These
exhibit
self-healing
passivation
capabilities,
contributing
their
resistance.
also
discusses
various
strategies
optimizing
materials,
including
surface
treatments,
alloying,
coating
techniques,
enhance
both
durability.
Moreover,
highlights
ongoing
research
bio-based
scalability
Although
challenges
remain
ensuring
consistent
over
extended
periods,
prospects
integrating
biodegradable,
systems
promising.
In
conclusion,
outlines
revolutionizing
by
addressing
resistance,
sustainability,
material
lifecycle
management.
Continued
innovation
field
could
transform
technologies,
driving
shift
toward
greener,
more
systems..
Keywords:
Sustainable
Materials,
Corrosion
Resistance,
Energy
Harvesting,
Biodegradable
Solutions,
Nuclear
Applications,
Nanostructured
Bio-Based
Composites.
