Water-Energy Nexus,
Journal Year:
2020,
Volume and Issue:
3, P. 170 - 185
Published: Jan. 1, 2020
To
remediate
significant
risks
such
as
increasing
resources
consumption,
climate
change,
and
environmental
pollutions
which
affect
resource
management
security,
energy
recovery
from
wastewater
could
be
a
feasible
approach
towards
the
circular
economy
(CE).
Wastewater
for
creates
an
exceptional
opportunity
bringing
environmental,
political,
economic,
social
benefits.
Transition
to
CE
addresses
many
of
reuse
obstacles
barriers,
public
acceptance
financial
policy
management.
This
review
focuses
on
potential
alternative
in
framework
evaluates
different
technologies.
Since
decision
makers
have
address
challenges
are
more
related
societal,
regulatory,
political
aspects
prior
execute
fundamental
actions,
practical
strategies
implementation
emphasizing
period
2010–2020
proposed.
Furthermore,
several
successful
case
studies
systematic
approach,
cover
all
scenarios
reviewed.
Journal of Hazardous Materials,
Journal Year:
2021,
Volume and Issue:
424, P. 127456 - 127456
Published: Oct. 9, 2021
The
COVID-19
pandemic
has
put
unprecedented
pressure
on
public
health
resources
around
the
world.
From
adversity,
opportunities
have
arisen
to
measure
state
and
dynamics
of
human
disease
at
a
scale
not
seen
before.
In
United
Kingdom,
evidence
that
wastewater
could
be
used
monitor
SARS-CoV-2
virus
prompted
development
National
surveillance
programmes.
pace
this
work
proven
unique
in
monitoring
national
level,
demonstrating
importance
wastewater-based
epidemiology
(WBE)
for
protection.
Beyond
COVID-19,
it
can
provide
additional
value
informing
range
biological
chemical
markers
health.
A
discussion
measurement
uncertainty
associated
with
wastewater,
focusing
lessons-learned
from
UK
programmes
is
presented,
showing
sources
impacting
quality
interpretation
data
decision-making,
are
varied
complex.
While
some
factors
remain
poorly
understood,
we
present
approaches
taken
by
manage
mitigate
more
tractable
uncertainty.
This
provides
platform
integrate
management
into
WBE
activities
as
part
global
One
Health
initiatives
beyond
pandemic.
Water,
Journal Year:
2022,
Volume and Issue:
14(21), P. 3542 - 3542
Published: Nov. 4, 2022
It
is
expected
that,
by
2050,
the
rapid
rise
in
population
and
simultaneous
urbanization
shall
deplete
clean
water
supplies.
Domestic
wastewater
(DWW)
contains
inorganic
organic
components
that
can
be
harmful
to
aquatic
organisms.
Traditional
remediation
approaches
(physical,
chemical
biological)
used
on-site
or
off-site
purify
polluted
domestic
(activated
sludge,
built-wetlands,
stabilization
ponds,
trickling
filters
membrane
bioreactors),
each
has
its
own
advantages
limitations.
Biosorption
through
microorganisms,
bacteria
(microbe-mediated
remediation),
fungi
(mycoremediation)
algae
(phycoremediation)
shown
promising
results
removing
toxic
chemicals
nutrients.
The
type
of
waste
concentration,
heterogeneity
level
percentage
clean-up
required;
feasibility
technique
efficiency,
practicability,
operational
difficulties,
environmental
impact
treatment
costs
are
all
factors
considered
when
choosing
a
for
(DWWT).
This
review
focuses
on
roles
conventional
methods
DWWT,
including
their
merits,
demerits
future
prospects.
promotes
concept
“reduce,
reuse
recycle”
DWWT
also
highlights
problem
emerging
contaminants
WWT
regimes.
We
provide
insights
into
different
filtration
procedures
purification
techniques
synergism
non-conventional
strategies
human
environment
health
security.
