Clarkson U. | CRCD | ME 637 | Aerosols | Particle Deposition Mechanisms


Aerosols

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Particle Deposition Mechanisms: Impaction

Inertia Impactions

Near the stagnation point of an in-viscid flow the fluid velocity field is given by

(1)

where b is a non-dimensional constant. For a particle under Stokes drag moving on the stagnation streamline, the equation of motion is given by

(2)

Using (1) in (2) and restating the resulting equation in a non-dimensional form, it follows that

(3)

where the Stokes number is defined as

(4)

and

(5)
For the linear constant coefficient equation given by (3), the solution is given as

(6)

where are the solutions to the characteristic equation given by

(7)

That is,

(8)

It is observed that for

(9)

the roots are real and negative. This will lead to vanishing of . Additional details were provided by Friedlander (2000).