Non-Planar Semi-Infinite Doublet (Vortex Horseshoe)
Suppose that we have a semi-infinite panel with a outgoing semi-infinite direction different than the incoming direction. That means that the semi-infinite panel is no longer planar. In this circumstances, the induced velocity $\mathbf{u}$ is computed just as explained in the previous section since it's simply a horseshoe. The computation of the potential field, however, needs a some adaptation.
From $\mathbf{p}_b$, we split the panel into two, and create two planar sections as shown below. The computation is then done on the $-\hat{\mathbf{d}}_a,\, \mathbf{p}_i,\, \mathbf{p}_j, +\hat{\mathbf{d}}_a$ section as explained before, while the $-\hat{\mathbf{d}}_a,\, \mathbf{p}_j, +\hat{\mathbf{d}}_b$ is approximated numerically with a large panel.
The potential and velocity field of a non-planar semi-infinte doublet panel (or non-planar vortex horseshoe) of unitary strength ($\mu=1$ or $\Gamma=1$) is shown below
$\nabla \phi$ = $\mathbf{u}$ verification