Sustainability,
Год журнала:
2024,
Номер
16(18), С. 8172 - 8172
Опубликована: Сен. 19, 2024
Solar
photovoltaic
(PV)
panels
that
use
polycrystalline
silicon
cells
are
a
promising
technique
for
producing
renewable
energy,
although
research
on
the
cells’
efficiency
and
thermal
control
is
still
ongoing.
This
experimental
aims
to
investigate
novel
way
improve
power
output
performance
by
combining
solar
PV
with
burned
fly-ash
tiles.
Made
from
burning
industrial
waste,
torched
fly
ash
has
special
qualities
make
it
useful
architectural
applications.
These
include
better
insulation,
strengthened
structural
integrity,
high
energy
efficiency.
Our
test
setup
shows
when
combined
tiles,
generation
rises
7%
surface
temperature
decreases
3%
compared
standard
panels.
The
enhanced
ascribed
outstanding
insulation
properties
of
tiles
their
capacity
panel
temperature.
To
ensure
longevity
safety
in
building
applications,
employed
this
study
had
water
absorption
rate
5.37%,
flexural
strength
2.95
N/mm2,
slip
resistance
at
38
km/h.
Furthermore,
we
find
improved
resilience
lower
cooling
costs
up
30%
sand
floor
replaced
ash,
which
makes
method
especially
appropriate
sustainable
buildings.
Key
indicators
show
how
effective
these
maximizing
buildings
emissivity
(0.874),
reflectance
(0.8),
(0.256).
While
supporting
more
ecofriendly
techniques,
highlights
advantages
utilizing
systems:
comfort.
main
results
open
greater
potential
different
materials.
materials
enhances
integrity
while
lowering
costs,
making
an
ideal
choice
eco-friendly
construction
highlighting
further
into
environmentally
responsible,
energy-efficient
solutions.
REVIEWS ON ADVANCED MATERIALS SCIENCE,
Год журнала:
2025,
Номер
64(1)
Опубликована: Янв. 1, 2025
Abstract
This
article
presents
a
scientometric
review
on
the
utilization
of
copper
slag
(CS)
as
substitute
constituent
in
ordinary
Portland
cement
concrete,
with
greater
focus
analyzing
CS
supplementary
cementitious
material
(SCM).
The
was
conducted
through
comprehensive
analysis
literature
using
Scopus
and
VOSviewer,
examining
publication
trends,
document
types,
subject
areas,
leading
contributors,
overall
progression
research
concrete.
revealed
substantial
increase
publications
between
2015
2022,
journal
“Construction
Building
Materials”
country
“India”
identified
most
influential
field.
methodology
involved
filtering
relevant
documents
to
impactful
research,
which
then
critically
analyzed
assess
fresh
hardened
properties
findings
indicate
that
incorporating
5–10%
an
SCM
can
significantly
enhance
mechanical
durability
also
found
improve
concrete
by
imparting
micro-filler
effect,
thereby
densifying
structure.
Additionally,
contributes
ecological
benefits
heavy
metals
into
matrix,
preventing
their
leaching,
aiding
environmental
conservation.
Despite
these
promising
results,
acknowledges
long-term
performance
remains
critical
area
needs
further
investigation.
Case Studies in Construction Materials,
Год журнала:
2024,
Номер
21, С. e03684 - e03684
Опубликована: Авг. 27, 2024
The
correlation
between
the
properties
of
parent
rock
(PR)
and
manufactured
sand
(MS)
is
poorly
understood.
In
this
study,
eight
groups
PR,
crushed
(CR),
MS
were
selected
in
lithofacies
analysis,
where
their
mechanical
hazardous
substances
investigated.
results
show
that
alkali
activities
PR
CR
facilitated
prediction
whether
met
specification
requirements.
Moreover,
exhibited
higher
water
absorption,
greater
crushing
indices
soundness
loss
than
CR.
Further,
large
mineral
grains
diorite
xenoliths
mica
granite
led
to
brittleness
lower
UCS
tuff
(97
MPa
vs.
121–151
MPa).
Sustainability,
Год журнала:
2024,
Номер
16(18), С. 8172 - 8172
Опубликована: Сен. 19, 2024
Solar
photovoltaic
(PV)
panels
that
use
polycrystalline
silicon
cells
are
a
promising
technique
for
producing
renewable
energy,
although
research
on
the
cells’
efficiency
and
thermal
control
is
still
ongoing.
This
experimental
aims
to
investigate
novel
way
improve
power
output
performance
by
combining
solar
PV
with
burned
fly-ash
tiles.
Made
from
burning
industrial
waste,
torched
fly
ash
has
special
qualities
make
it
useful
architectural
applications.
These
include
better
insulation,
strengthened
structural
integrity,
high
energy
efficiency.
Our
test
setup
shows
when
combined
tiles,
generation
rises
7%
surface
temperature
decreases
3%
compared
standard
panels.
The
enhanced
ascribed
outstanding
insulation
properties
of
tiles
their
capacity
panel
temperature.
To
ensure
longevity
safety
in
building
applications,
employed
this
study
had
water
absorption
rate
5.37%,
flexural
strength
2.95
N/mm2,
slip
resistance
at
38
km/h.
Furthermore,
we
find
improved
resilience
lower
cooling
costs
up
30%
sand
floor
replaced
ash,
which
makes
method
especially
appropriate
sustainable
buildings.
Key
indicators
show
how
effective
these
maximizing
buildings
emissivity
(0.874),
reflectance
(0.8),
(0.256).
While
supporting
more
ecofriendly
techniques,
highlights
advantages
utilizing
systems:
comfort.
main
results
open
greater
potential
different
materials.
materials
enhances
integrity
while
lowering
costs,
making
an
ideal
choice
eco-friendly
construction
highlighting
further
into
environmentally
responsible,
energy-efficient
solutions.
