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Atmospheric Dispersion Steady State Concentration

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Jul 24, 2020, 6:28:07 PM
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Jun 12, 2014, 1:59:24 AM
C=Q2πuσyσze-12y2σ2y[e-12(z-(H+Δh))2σ2z+e-12(z+(H+Δh))2σ2z]
Emission Rate
Horizontal Plume Dispersion Std Dev
Vertical Plume Dispersion Std Dev
Average Wind Speed at Stack Height
Horizontal Distance from Plume Centerline
Vertical Distance From Ground
Stack Height
Plume Rise
Tags
Physics Atmospheric Science Environmental Engineering Verified
UUID
017ef021-3d5d-11e3-83ad-bc764e049c3d

This equation models the general form of the Gaussian Atmospheric Dispersion equation as a function of downwind distance and stability class, meaning the dispersion in crosswind (y) and vertical (z) directions are Gaussian distributions.  The result is the steady-state concentration at a point (x,y,z) expressed in μg/m3.

The effective stack height used is the physical stack's height (H) plus the plume rise (Δh)

Notes

The equation assumes the emission rate is constant, dispersion in downwind (z) direction is negligible, horizontal meteorological conditions (wind speed and direction, temperature, atmospheric stability class and mixing height) are constant, there's no wind sheer un the horizontal or vertical.

We also assume the plume modeling is independent of previous model time, there is no plume deposition at the surface, the pollutants are non-reactive and remain suspended.
This equation, Atmospheric Dispersion Steady State Concentration, references 1 page
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