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porespace

Porespace, also known as pore space, refers to the void fraction of a porous material—the volume not occupied by solid material that can hold or transmit fluids. It is usually expressed as porosity, the ratio of pore volume to total sample volume, and is influenced by the arrangement and size of solid grains, as well as the presence of cracks or voids.

Not all pore space is equally accessible; connected porosity includes voids that can exchange fluids with the

Measurement and characterization of porespace employ laboratory tests and imaging. Common methods include gravimetric or volumetric

In geology and engineering, porespace governs fluid storage and movement in soils, rocks, ceramics, catalysts, and

Factors modifying porespace include compaction, cementation, mineral weathering, swelling clays, thermal cycling, and chemical alteration. Practical

surroundings,
while
isolated
pockets
may
store
fluids
but
not
contribute
to
flow.
porosity
measurements,
gas
or
liquid
permeability
tests,
and
surface
area
analysis.
Imaging
techniques
such
as
X-ray
computed
tomography,
magnetic
resonance
imaging,
or
electron
microscopy
reveal
pore
networks
and
size
distributions.
Mercury
intrusion
porosimetry
and
gas
sorption
provide
pore
size
distribution
data
but
may
alter
delicate
samples.
membranes.
It
affects
groundwater
table
and
contaminant
transport,
oil
and
gas
recovery,
filtration
efficiency,
battery
materials,
and
environmental
remediation.
interpretation
must
distinguish
total
porosity
from
connected
porosity
and
consider
anisotropy
and
pore
throat
distributions.