TABLE 1
Measures of particle size
Definition of characteristic diameters
Physical meaning and corresponding
measuring method
geometric size ()/,(bl 233111222 blt)/,(),/(/ / /),,{(blt^13 / lb t lb lb bt ltt/)}6
Feret diam. unidirectional diameter: diameter of particles
at random along a given fixed line, no
meaning for a single particle.
Martin diam. unidirectional diameter: diameter of particles
as the length of a chord dividing the
particle into two equal areas.
equivalent diam. equivalent projection area diam.
(Heywood diam.)
diameter of the circle having the same area as
projection area of particle, corresponding
to diam. obtained by light extinction.
equivalent surface area diam.
(specific surface diam.) (s/p)1/2
diameter of the sphere having the same
surface as that of a particle, corresponding
to diam. obtained by absorption or
permeability method.
equivalent volume diam.
(6v/p)1/3
diameter of the sphere having the same
volume as that of a particle,
corresponding to diam. obtained by
Coulter Counter.
breadth: b
length: l
Stokes diam. diameter of the sphere having the same
gravitational setting velocity as that of a
particle,
Dst [18 mvt/g(rp rf)Cc]1/2, obtained by
sedimentation and impactor.
(continued)
b
l
t
AEROSOLS
An aerosol is a system of tiny particles suspended in a gas.
Aerosols or particulate matter refer to any substance, except
pure water, that exists as a liquid or solid in the atmosphere
under normal conditions and is of microscopic or submicrosco-
pic size but larger than molecular dimensions. There are two
fundamentally different mechanisms of aerosol formation:
- nucleation from vapor molecules (photochemis-
try, combustion, etc.) - comminution of solid or liquid matter (grinding,
erosion, sea spray, etc.)
Formation by molecular nucleation produces particles of
diameter smaller than 0.1 m m. Particles formed by mechani-
cal means tend to be much larger, diameters exceeding 10 m m
or so, and tend to settle quickly out of the atmosphere. The
very small particles formed by nucleation, due to their large
number, tend to coagulate rapidly to form larger particles.
Surface tension practically limits the smallest size of particles
that can be formed by mechanical means to about 1 m m.
PARTICLE SIZE DISTRIBUTION
Size is the most important single characterization of an aero-
sol particle. For a spherical particle, diameter is the usual
reported dimension. When a particle is not spherical, the size
can be reported either in terms of a length scale characteristic
of its silhouette or of a hypothetical sphere with equivalent
dynamic properties, such as settling velocity in air.
Table 1 summarizes the physical interpretation for a
variety of characteristic diameters. The Feret and Martin
diameters are typical geometric diameters obtained from
particle silhouettes under a microscope.
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