Acoustic radiation from a source, here viewed as an immobile point singularity with periodic strength and a given multipolar nature, is affected by the presence of nearly structural elements (e.g., rigid or impedance surfaces) as well as that of a background flow in the medium. An alternative to the conventional manner of calculating the net source output by integrating the energy flux over a distant control surface is described; this involves a direct evaluation of the secondary wavefunction at the position of the primary source and obviates the need for a (prospectively difficult) flux integration. Various full and half‐planar surface configurations with an adjacent source are analyzed in detail, and the explicit result obtained, in particular, for the power factor of a dipole brings out a substantial rise in its output as the source nears the sharp edge of a half‐plane.