Which technique is used to account for ground reflection in Gaussian plume calculations?

• A. Direct numerical integration of boundary layer equations.
• B. Method of images; mirrored plume about ground plane.
• C. Neglecting ground effects altogether.
• D. Doubling the emission rate.

Answer: (B)

Ground reflection in Gaussian plume calculations is modeled using the method of images: you treat the ground as a mirror and place a fictitious source at the symmetric position below the ground plane. The real plume and this mirrored plume together create a concentration field that satisfies the boundary condition at the ground (no normal flux into the ground for a non-depositing surface). In practice, the result is a sum of two Gaussian plumes—one from the actual source at height H and one from the mirrored source at height -H—so concentrations near the ground are enhanced in a way that reflects the presence of the ground.

Other approaches don’t capture the boundary behavior properly. Direct numerical integration of boundary-layer equations is more complex than the standard Gaussian approach. Ignoring ground effects misses a major part of the dispersion physics, and simply doubling the emission rate ignores how the reflected plume distributes vertically, leading to incorrect concentration profiles.