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sorptiviteit

Sorptiviteit, sometimes rendered as sorptivity, is a property of a porous material that describes its capacity to absorb a liquid by capillary action, especially during the early, gravity-neutral stage of infiltration into an initially dry medium. It is a measure of how readily liquid can move into pore spaces due to capillary suction, before gravity dominates transport.

In infiltration theory, sorptivity is represented by the parameter S in the Philip equation for cumulative

Determinants of sorptivity include pore-size distribution, connectivity and tortuosity of the pore network, initial moisture content,

Measurement and estimation commonly use infiltration tests on dry specimens. By recording cumulative infiltration over time

infiltration:
F(t)
=
S
t^0.5
+
K
t,
where
F
is
the
total
infiltrated
volume,
t
is
time,
and
K
is
the
saturated
hydraulic
conductivity.
From
this
relation,
the
infiltration
rate
i(t)
=
dF/dt
can
be
written
as
i(t)
=
S/(2
sqrt(t))
+
K.
The
units
of
S
are
length
per
square
root
of
time
(for
example
cm/√min).
Sorptivity
depends
on
the
pore
structure
and
wettability
of
the
material,
and
it
typically
decreases
as
the
soil
becomes
wetter
or
the
pore
network
becomes
more
tortuous.
surface
properties,
and
temperature.
In
practice,
S
is
higher
for
materials
with
well-connected
capillary
pores
and
strong
capillary
forces,
and
it
diminishes
as
the
material
gains
moisture
or
undergoes
aging.
and
plotting
F
versus
sqrt(t),
S
is
obtained
from
the
linear
early-time
portion,
while
K
is
inferred
from
the
long-time
behavior.
Sorptivity
is
widely
used
in
hydrology,
soil
science,
and
civil
engineering
to
model
rainfall
infiltration,
moisture
transport
in
soils
and
porous
building
materials,
and
initial
moisture
changes
in
pavements
and
barriers.