Energy Nexus,
Journal Year:
2024,
Volume and Issue:
15, P. 100319 - 100319
Published: Aug. 8, 2024
The
present
work
presents
a
literature
review
of
solar-driven
adsorption
desalination
systems
(ADS)
from
the
perspective
hybrid
systems,
materials,
and
system
configurations.
evaluation
criteria
were
based
on
daily
water
production
rate
(SDWP),
gain
output
ratio,
coefficient
performance
(COP),
specific
cooling
power
(SCP)
dual-cooling
systems.
Recommendations
for
effective
that
require
further
research
development
to
increase
productivity
enhance
are
also
mentioned.
First,
concerning
adding
an
ejector
cycle
showed
significant
improvement
in
SDWP,
reaching
40
m3/ton
per
day
(TPD).
In
comparison,
using
two
ejectors
ADS
integrated
with
HDH
reached
83.1
m3/TPD
at
cost
estimated
1.49
$/m3.
Secondly,
configurations,
wire
wound
finned
tube
heat
exchanger
achieved
high
performance.
SCP,
COP
23.5
m3/TPD,
682
W/kg,
0.32,
respectively.
Thirdly,
results
promising
adsorbent
materials
range
solar
energy
temperatures,
top
them
was
sodium
polyacrylate
(SP)/CaCl2,
where
SDWP
about
45
0.67,
respectively,
while
3.8
Finally,
it
recommended
introduce
2D
adsorbents
improve
properties
exchangers
3D
structures
overall
transfer
ADS.
Environmental Science & Technology,
Journal Year:
2025,
Volume and Issue:
59(1), P. 892 - 901
Published: Jan. 2, 2025
In
this
work,
we
analyzed
the
effects
of
mineral
scaling
on
performance
a
3D
interfacial
solar
evaporator,
with
focus
cations
relevant
to
lithium
recovery
from
brackish
water.
The
field
has
been
rapidly
moving
toward
resource
applications
brines
higher
cation
concentrations.
However,
potential
complications
caused
by
common
minerals
in
these
other
than
NaCl
have
largely
overlooked.
Therefore,
study,
thoroughly
examined
two
(calcium
and
magnesium)
long-term
evaporation
graphene
oxide
stalk.
stalk
can
achieve
an
flux
as
high
17.8
kg
m–2
h–1
under
one-sun
illumination,
accumulation
surface
no
impact.
presence
CaCl2
MgCl2
significantly
reduces
evaporative
even
solutions
lacking
scale-forming
anions.
A
close
examination
scale
formation
during
experiments
revealed
that
tend
precipitate
out
within
stalk,
thus
blocking
water
transport
through
dropping
rates.
These
findings
imply
research
attention
is
needed
modify
optimize
internal
channels
for
evaporators.
Additionally,
emphasize
importance
testing
realistic
mixtures─including
prominent
divalent
cations─
operations
investigating
approaches
mitigate
negative
impacts
cations.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(32)
Published: May 30, 2024
Spontaneous
or
nonspontaneous
unidirectional
fluid
transport
across
multidimension
can
occur
under
specific
structural
designs
and
ambient
elements
for
porous
materials.
While
existing
reviews
have
extensively
summarized
on
surfaces,
there
is
an
absence
of
literature
summarizing
fluid's
This
review
introduces
wetting
phenomena
observed
natural
biological
surfaces
structures.
Subsequently,
it
offers
overview
diverse
principles
potential
applications
in
this
field,
emphasizing
various
physical
chemical
(surface
energy,
capillary
size,
topographic
curvature)
(underwater,
oil,
pressure,
solar
energy).
Applications
encompass
moisture-wicking
fabric,
sensors,
skincare,
fog
collection,
oil-water
separation,
electrochemistry,
liquid-based
gating,
evaporators.
Additionally,
significant
formulas
from
studies
are
compelled
to
offer
readers
valuable
references.
Simultaneously,
advantages
challenges
critically
assessed
these
the
perspectives
presented.
