Journal of Petroleum Exploration and Production Technology,
Journal Year:
2021,
Volume and Issue:
12(2), P. 365 - 381
Published: Dec. 22, 2021
Abstract
Treatment
of
the
filter
cake
layer
after
drilling
is
essential
for
better
cement
integrity
and
to
retain
original
reservoir
permeability.
Compared
water-based
cake,
oil-based
mud
removal
more
sophisticated
as
oil
encloses
cake’s
particles.
Therefore,
clean-up
requires
wettability
alteration
additives
(mutual
solvents
and/or
surfactants)
permitting
acid/filter
reaction.
With
an
appropriate
acid,
microemulsions
were
reported
be
very
efficient
in
cleaning
cakes,
due
their
low
interfacial
tension
high
acid
solubility.
The
objective
this
paper
provide
overview
different
techniques
treatment
solutions
utilized
clean-up.
Furthermore,
a
synopsis
various
treatments
fluids
densified
with
weighting
materials
presented.
Subsequently,
research
limitations
opportunities
have
been
highlighted
future
work.
In
light
review
that
has
presented
paper,
it's
recommended
conduct
further
investigation
on
some
areas
related
removal.
formed
from
other
than
barite,
calcium
carbonate,
ilmenite,
manganese
tetroxide
needs
investigated
thoroughly.
Additionally,
overall
efficiency
studied
under
wide
ranges
temperature,
salinity,
pH.
utilization
surfactant-free
could
also
investigated.
ACS Omega,
Journal Year:
2021,
Volume and Issue:
6(44), P. 29905 - 29920
Published: Oct. 28, 2021
Any
improvement
in
drilling
technology
is
critical
for
developing
the
oil
and
gas
industry.
The
success
of
operations
largely
depends
on
fluid
characteristics.
Drilling
fluids
require
enough
viscosity
to
suspend
particles
transport
them
surface
capability
control
loss
into
formation.
Rheology
filtration
characteristics
are
crucial
factors
consider
while
ensuring
effectiveness
a
operation.
Graphene
oxide
(GO),
xanthan
gum
(XG),
low-viscosity
carboxymethyl
cellulose
(CMC
LV)
being
utilized
this
research
produce
high-performance,
low-solid
water-based
(WDFs).
Rheological
behaviors
GO/XG/CMC
LV-WDF
were
investigated
as
function
GO,
XG,
CMC
LV
at
low
concentrations
(0.0–0.3%
w/w)
atmospheric
conditions.
According
findings,
GO
improved
rheological
capabilities
WDF.
By
adding
0.15
wt
%
shear
stress
could
be
doubled,
especially
high
rate
1022
s–1.
plastic
expanded
from
6
13
centipoise,
8.7
mL
over
30
min
was
observed
during
API
test,
which
would
lower
than
suggested
value
(15.0
mL)
mud.
At
same
concentration
XG
LV,
had
more
significant
influence
presence
GO.
Adding
0.3
increase
20.21
30.21
Pa
In
contrast,
impact
properties,
acting
agent
by
decreasing
21.4
14.2
min.
addition
solution
may
microstructure
filter
cake,
resulting
tree-root
morphology.
Indeed,
GO/CMC
solution,
individual
platelets
bind
together,
form
jellyfish
shape,
block
micropores.
incorporation
helped
develop
compact
cakes,
excellent
filtration.
Five
models
employed
match
parameters
quantitatively.
Herschel–Bulkley
model
outperformed
other
simulating
behavior.
findings
study
can
utilize
provide
low-cost,
stable,
environmentally
compatible
additives
low-pressure,
depleted,
fractured
reservoirs.
Energies,
Journal Year:
2022,
Volume and Issue:
15(7), P. 2591 - 2591
Published: April 1, 2022
Drilling
fluid
represents
the
most
important
that
must
fulfill
numerous
assignments
during
drilling
operations.
Many
commercially
available
additives
for
water-based
fall
into
category
of
non-degradable
and
environmentally
hazardous
materials.
Significant
development
in
this
area
can
be
made
by
using
biodegradable
materials
as
fluids.
The
objective
study
was
to
determine
whether
mandarin
peel
powder
particle
size
affects
properties
fluid.
In
paper,
used
form
a
dry
divided
sizes
smaller
than
0.1
mm,
between
mm
0.16
mm.
Mandarin
added
four
different
concentrations
(0.5,
1,
1.5,
2%
volume
water).
By
increasing
concentration,
API
filtration
reduced
up
42%,
PPT
significantly
decreased
61.54%,
while
rheological
parameters
generally
increased
but
remained
within
acceptable
limits.
It
is
determined
optimal
concentration
1.5%
water.
ACS Omega,
Journal Year:
2022,
Volume and Issue:
7(24), P. 20457 - 20476
Published: June 8, 2022
The
development
of
sustainable,
cost-efficient,
and
high-performance
nanofluids
is
one
the
current
research
topics
within
drilling
applications.
inclusion
tailorable
nanoparticles
offers
possibility
formulating
water-based
fluids
with
enhanced
properties,
providing
unprecedented
opportunities
in
energy,
oil,
gas,
water,
or
infrastructure
industries.
In
this
work,
most
recent
relevant
findings
related
customizable
are
discussed,
focusing
on
those
based
incorporation
2D
(two-dimensional)
environmentally
friendly
precursors.
advantages
drawbacks
using
layered
nanomaterials
including
but
not
limited
to
silicon
nano-glass
flakes,
graphene,
MoS2,
disk-shaped
Laponite
nanoparticles,
magnesium
aluminum
silicate
nanolayered
organo-montmorillonite
presented.
formulation
approaches
listed,
as
well
their
physicochemical
characterization:
rheology,
viscoelastic
filtration
properties
(fluid
losses).
influential
factors
affecting
fluid
performance,
such
pH,
temperature,
ionic
strength
interaction,
pressure,
also
debated.
Finally,
an
overview
about
simulation
at
microscale
flux
porous
media
presented,
aiming
illustrate
that
could
be
taken
supplement
experimental
efforts
performance
muds.
information
discussed
shows
addition
structures
promotes
a
substantial
improvement
rheological,
viscoelastic,
additionally
contributing
cuttings
removal,
wellbore
stability
strengthening.
This
unique
opportunity
modulate
improve
thermal
lubrication
fluids,
which
highly
appealing
during
operations.
Nanotechnology Reviews,
Journal Year:
2023,
Volume and Issue:
12(1)
Published: Jan. 1, 2023
Abstract
In
line
with
the
global
recognition
of
waste-to-wealth
concept
aiming
for
circular
economy,
scientific
articles
are
published
in
greatly
increasing
number
on
eco-friendly
and
sustainable
utilization
carbon
nanocomposites.
However,
control
structure
properties
waste-derived
nanomaterials
still
requires
substantial
future
research.
this
review,
recycling
materials
into
nanocomposites
containing
graphene
narrated
by
overviewing
all
120
publications
currently
available
literature
including
their
pioneering
study
2012
recent
developments
until
2022,
focusing
energy-related
aspects
functional
graphene-based
Interestingly,
almost
sources
report
composites
which
is
a
high
value-added
filler
or
matrix,
only
other
phase
originates
from
wastes.
Flexibility
process
parameters
pyrolysis
methods
enables
synthesis
biomass-derived
virtually
any
kind
industrial
applications.
Biomass
often
acts
both
as
SiO
2
source,
while
few
percentages
material
induce
significant
changes
physicochemical
properties.
Utilization
wastes
energetic
increases
abruptly
due
to
outstanding
price-to-value
ratio
reusability.
Future
perspectives
current
green
chemistry
human
health
related
challenges
also
discussed
pave
ways
new
using
unexplored
waste
sources.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(4), P. 3375 - 3375
Published: Feb. 12, 2023
Drilling
fluid
systems
have
seen
the
addition
of
new
natural
additives
in
recent
years
order
to
replace
traditional
additives,
improve
their
rheological
properties,
and
ensure
functionality
drilling
taking
into
account
health
environmental
factors.
This
paper
aims
study
compare
effect
eggshell
powder
(ESP)
as
a
native
local
additive
calcium
carbonate
(CC)
conventional
on
filtration
properties
system
based
Na-bentonite
region
Meghnia
(Algeria).
The
test
results
10,
20,
30
g
CCwerecompared
same
concentrations
ESP.The
findings
showed
that
CC
with
various
(10,
g)
increases
mud
density
while
it
reduces
filter
cake
loss
values
which
are
desirable,
had
aslightly
higher
pH.
obtained
following
ESP
different
ratios
revealed
latter
has
considerable
impact
plastic
viscosity,
yield
point,
gel
strength,
thickness.
Additionally,
presence
an
pH,
loss,
was
studied;
we
observed
slight
increase
decreased.
However,
increased.
Beyond
20
eggshell,
becomeundesirable.
Moreover,
this
contributes
tonewfindings
suggests
utilization
waste
food
goods
mixtures
bright
future
respecting
percentages
use.
Materials,
Journal Year:
2022,
Volume and Issue:
15(3), P. 1083 - 1083
Published: Jan. 30, 2022
Improving
the
tribological
characteristics
of
water-based
drilling
fluids
by
adding
graphene-based
lubricants
has
garnered
attention
because
potential
for
a
range
inorganic-material-based
additives
at
high
temperature.
In
this
study,
we
constructed
green
and
simple
adsorption
approach
to
prepare
highly
dispersed
graphite
using
cationic
surfactant
modification.
The
findings
demonstrated
that
prepared
was
in
water
had
low
sedimentation
rate
small
contact
angle
distilled
water.
concentration
dosage
cetyltrimethylammonium
chloride
(CTAC)
on
0.02
g/g.
We
evaluated
performance
modified
as
lubricated
additive
through
rheological
study
viscosity
coefficient
measurement.
results
showed
fluid
with
0.05%
reduced
67%
180
°C.
proved
can
significantly
improve
lubrication
fluid.
Furthermore,
revealed
mechanism
analyzing
chemical
structural
crystalline
morphological
features
particle
size
test,
zeta
Fourier
transform
infrared
(FTIR)
spectroscopy,
X-ray
powder
diffraction
(XRD),
scanning
electron
microscopy
(SEM)
measurements.
indicated
modification
CTAC
only
occurs
physical
adsorption,
without
changing
crystal
structure.
These
provide
reference
development
high-performance
fluids.
