The
rapid
advancement
of
technology
has
led
to
increased
electronic
consumption
and
a
corresponding
rise
in
e-waste
generation.
To
address
this
issue,
study
develops
low-carbon
e-commerce
closed-loop
supply
chain
(LCE-CLSC)
system
with
remanufacturer,
platform,
the
government
as
key
stakeholders.
An
evolutionary
game
approach
is
employed
investigate
system's
dynamics,
analyzing
impact
stakeholder
strategies
on
equilibrium.
Numerical
simulations
reveal
important
findings:
Firstly,
initiatives
promoting
recycling,
carbon
taxes
traditional
products,
can
incentivize
remanufacturers
produce
items
encourage
platform
investment
recycling
services.
Secondly,
higher
sales
revenues
motivate
products.
Thirdly,
consumer
sensitivity
services
strengthens
waste
recovery
when
platforms
increase
investments
these
services,
leading
choosing
production.
Lastly,
subsidies
may
become
ineffective
if
cost
remanufacturers'
reduction
platforms'
exceeds
their
affordability.
These
findings
offer
insights
for
sustainable
development
obsolete
product
systems.
Journal of Cleaner Production,
Journal Year:
2024,
Volume and Issue:
467, P. 142879 - 142879
Published: June 12, 2024
Under
the
promotion
of
sustainable
development
goals,
cleaner
production
(CP)
has
become
an
important
strategy
for
energy-intensive
manufacturing
industries
to
maintain
their
competitiveness.
Studies
have
shown
that
implementation
Industry
4.0
(I4.0)
can
effectively
promote
CP
process
in
manufacturing.
However,
existing
studies
often
focus
on
specific
scenarios,
limiting
a
comprehensive
assessment
industry's
overall
status.
This
paper
aims
provide
overview
main
research
areas
I4.0
and
its
key
impacts
by
employing
systematic
mapping
studies.
By
reviewing
121
retrieved
from
Web
Science,
hierarchical
analysis
framework
centred
product
life
cycle
(PLC)
been
introduced.
provides
holistic
intelligent
manufacturing,
summarizing
application
impact
across
PLC
stages.
The
findings
reveal
growing
CP,
with
maintenance
stages
being
primary
scenarios.
Attention
should
be
directed
towards
integrating
clean
technologies,
bolstering
industrial
data
security,
fostering
circular
economy
practices,
exploring
emerging
fields
like
5.0.
Moreover,
deep
technologies
will
help
drive
further
but
requires
concerted
efforts
enterprise
managers,
researchers,
governments.
These
viewpoints
conclusions
are
great
significance
guiding
future
practical
applications.
Journal of Cleaner Production,
Journal Year:
2024,
Volume and Issue:
462, P. 142629 - 142629
Published: May 20, 2024
Due
to
the
ongoing
development
of
urban
infrastructure
and
higher
living
standards,
waste
glass
has
become
a
significant
component
municipal
solid
that
cannot
be
disregarded.
To
address
this
issue,
researchers
have
been
looking
for
sustainable
solutions
establish
Circular
Economy
best
practices
full
value
chain
products
made
glass,
particularly
from
high-quality
sheets.
Unfortunately,
most
is
either
dumped
in
landfills
or
recycled
an
open-loop
manner,
due
its
diverse
composition
low
volume.
However,
with
advent
Industry
4.0
5.0
technologies,
including
machine-to-machine
communication,
artificial
intelligence,
Internet
Things,
collaborative
robots,
dynamic
life
cycle
assessment,
advanced
remanufacturing
techniques,
it
could
now
possible
characterize
recover
end-of-life
sheets
like
chemically
strengthened
glasses,
e.g.
used
smartphone
screens,
real
time
smart
factories
use
other
high-tech
applications.
Such
can
economically
produce
on-demand
batch-size
1
products,
marking
fundamental
transition
conventional
recycling
methods
solution.
This
paper
delves
into
integration
technologies
research
potential
contributions
5.0,
addressing
societal
implications.
It
also
introduces
intelligent
method
assess
optimize
lifespan
screen
suggesting
reuse
solutions.
Sustainable Futures,
Journal Year:
2024,
Volume and Issue:
7, P. 100216 - 100216
Published: May 16, 2024
This
study
aims
to
evaluate
performance
of
SM
adoption
in
textile
organizations
by
developing
a
measurement
framework.
A
fuzzy
modified
balanced
scorecard
technique
has
been
used
fulfil
the
objective
study.
cross-disciplinary
team
fifteen
experts,
delineation
perspectives,
and
classification
measures
were
established.
The
findings
reveal
that
environmental
perspective,
emerges
as
most
crucial
criterion,
trailed
social
economic
innovation
supply
chain
regulatory
compliance
perspective
customer
perspective.
Results
will
help
managers
academicians
examine
key
indicators
implementing
SM.
Logistics,
Journal Year:
2025,
Volume and Issue:
9(2), P. 54 - 54
Published: April 16, 2025
Background:
The
global
climate
crisis
has
intensified
the
demand
for
sustainable
solutions,
positioning
Reverse
Logistics
(RL)
as
a
critical
strategy
minimizing
environmental
impacts.
Simultaneously,
Industry
4.0
technologies
are
transforming
RL
operations
by
enhancing
their
collection,
transportation,
storage,
sorting,
remanufacturing,
recycling,
and
disposal
processes.
Understanding
roles
of
these
is
essential
improving
efficiency
sustainability.
Methods:
This
study
employs
systematic
literature
review,
following
PRISMA
methodology,
to
identify
key
applicable
RL.
Publications
from
Scopus
Web
Science
were
analyzed,
leading
development
theoretical
framework
linking
activities.
Results:
findings
highlight
fact
that
like
Internet
Things
(IoT),
Artificial
Intelligence
(AI),
Big
Data
Analytics,
Cloud
Computing,
Blockchain
enhance
traceability,
automation,
Their
application
optimizes
execution
time,
reduces
operational
costs,
mitigates
Conclusions:
For
transportation
manufacturing
sectors,
integrating
into
can
streamline
supply
chains,
decision-making,
improve
resource
utilization.
Smart
tracking,
predictive
maintenance,
automated
sorting
systems
reduce
waste
resilience,
reinforcing
transition
toward
circular
economy.
By
adopting
innovations,
stakeholders
achieve
economic
benefits
while
ensuring
regulatory
compliance
long-term
competitiveness.
