System Research in Energy,
Journal Year:
2024,
Volume and Issue:
2024(2), P. 97 - 114
Published: May 5, 2024
Understanding
and
incorporating
global
regulatory
experiences
standards
related
to
battery
management
is
of
greatest
importance,
particularly
when
considering
the
rapid
evolution
electric
vehicle
(EV)
market
its
implications
for
energy
storage
sustainability.
This
especially
relevant
Ukraine,
where
burgeoning
secondary
EVs
a
keen
interest
in
renewable
sources
underscore
need
proactive
policy-making
standardization
address
challenges
second
life
recycling.
article
delves
into
role
Electric
Vehicle
Lithium-Ion
batteries
within
ambit
circular
economy,
underscoring
significance
legislative
frameworks
across
globe
with
particular
focus
on
European
initiatives
light
Ukraine's
EU
integration
ambitions.
encompasses
extending
through
recycling
repurposing,
thereby
ensuring
both
economic
viability
minimal
environmental
footprint.
The
narrative
outlines
varied
landscapes
internationally,
noting
differences
strategies
from
Asia's
technological
safety
emphasis
Europe's
robust
directives
aimed
at
lifecycle
management.
In
Europe,
drive
towards
sustainable
utilization
marked
by
comprehensive
policies
like
Battery
Directive
emerging
Regulation
Batteries
Waste
Batteries,
which
set
forth
ambitious
targets
introduce
innovative
concepts
passport.
Drawing
this
overview,
posits
recommendations
suggesting
development
extensive
legislation,
adoption
smooth
path
membership,
investment
infrastructures,
fostering
public-private
partnerships,
public
awareness
initiatives.
These
are
designed
elevate
position
sustainability,
promoting
stewardship
competitiveness.
growing
importance
lithium-ion
vehicles
supporting
harmonizing
emphasized,
accordingly,
adequate
legislation
support
closed-loop
economy.
Keywords:
Second-Life
Application,
EV
Life
Cycle,
Circular
Economy,
Repurpose,
Reuse,
Recycling,
Standards,
Regulation,
Legislation.
Nature Communications,
Journal Year:
2024,
Volume and Issue:
15(1)
Published: Sept. 2, 2024
Reuse
and
recycling
of
retired
electric
vehicle
(EV)
batteries
offer
a
sustainable
waste
management
approach
but
face
decision-making
challenges.
Based
on
the
process-based
life
cycle
assessment
method,
we
present
strategy
to
optimize
pathways
battery
treatments
economically
environmentally.
The
is
applied
various
reuse
scenarios
with
capacity
configurations,
including
energy
storage
systems,
communication
base
stations,
low-speed
vehicles.
Hydrometallurgical,
pyrometallurgical,
direct
considering
residual
values
are
evaluated
at
end-of-life
stage.
For
optimized
pathway,
lithium
iron
phosphate
(LFP)
improve
profits
by
58%
reduce
emissions
18%
compared
hydrometallurgical
without
reuse.
Lithium
nickel
manganese
cobalt
oxide
(NMC)
boost
profit
19%
18%.
Despite
NMC
exhibiting
higher
immediate
returns,
LFP
provide
superior
long-term
benefits
through
before
recycling.
Our
features
an
accessible
evaluation
framework
for
pinpointing
optimal
EV
batteries.
decision
Ma
et
al.
economic
environmental
treating
these
Frontiers in Sustainability,
Journal Year:
2024,
Volume and Issue:
5
Published: June 10, 2024
The
rapid
worldwide
transition
to
electric
vehicles
(EVs),
propelled
by
progress
in
lithium-ion
battery
(LIB)
technology,
brings
opportunities
and
problems
sustainable
development
resource
management.
This
study
examines
how
incorporating
circular
economy
ideas
enhancing
skills
EV
LIB
recycling
can
be
a
strategic
approach
meeting
the
2030
Agenda
for
Sustainable
Development.
article
explores
relationship
between
environmental
sustainability,
economic
growth,
social
fairness
studying
recycling,
workforce
gap,
ramifications
of
approach.
Based
on
existing
literature,
highlights
importance
practices
improving
efficiency,
decreasing
pollution,
supporting
various
Development
Goals
(SDGs),
especially
those
concerning
responsible
consumption
production
(SDG
12),
climate
action
13),
industry,
innovation,
infrastructure
9).
significance
Education
(ESD)
preparing
with
essential
adapt
more
economy.
It
also
significant
obstacles
present
methods,
such
as
technological
limitations,
legislative
discrepancies,
necessity
collaboration
standardization.
paper
suggests
practical
policy
suggestions
future
research
paths
improve
sustainability
recycling.
initiatives
involve
establishing
global
standards,
promoting
models
through
incentives,
boosting
facilitating
international
knowledge
exchange.
Radiography,
Journal Year:
2024,
Volume and Issue:
30, P. 56 - 61
Published: June 1, 2024
ObjectiveUrgent
global
action
is
required
to
combat
climate
change,
with
radiographers
poised
play
a
significant
role
in
reducing
healthcare's
environmental
impact.
This
paper
explores
radiography-related
activities
and
factors
resource-limited
departments
contributing
the
carbon
footprint
proposes
strategies
for
mitigation.
The
rationale
discuss
literature
regarding
these
raise
awareness
about
how
promote
sustainability
clinical
radiography
practice
education
countries.Key
findingsThe
countries
include
use
of
old
equipment
energy
inefficiency,
insufficient
clean
power
equipment,
long-distance
commuting
radiological
examinations,
high
film
usage
waste,
inadequate
training
research
on
sustainable
practices,
as
well
limited
policies
drive
support
sustainability.
Addressing
issues
requires
multifaceted
approach.
Firstly,
financial
assistance
partnerships
are
needed
adopt
eco-friendly
technologies
sources
thus
tackling
related
inefficiency.
Transitioning
digital
can
mitigate
impact
while
collaboration
between
governments,
healthcare
organisations,
international
stakeholders
improve
access
services,
commuting.
Additionally,
promoting
programmes
efforts
will
empower
knowledge
sustainably,
complemented
by
clear
such
green
imaging
practices
guide
incentivise
adoption
practices.
These
integrated
solutions
significantly
reduce
settings
enhancing
delivery.ConclusionRadiography-related
but
be
addressed
through
concerted
efforts.Implications
practiceAddressing
challenges
posed
usage,
collaborative
robust
policy
implementation
essential
countries.
Radiographers
need
aware
begin
work
relevant
them.
Furthermore,
there
them
engage
right
understanding
sustainably.
