Something I'm doing to my car. You see, if you have a wheel travelling in a straight line, there is an equal amount of turbulence and tire wake, however, if you toe out the wheel, something interesting happens. The tire sheds a jetting vortex between the now high pressure inner side of the wheel and the lower pressure outer side of the wheel. This vortex is extremely stable and creates laminar flow as opposed to the nasty turbulent wake a toed in or 0 toe wheel produces. Instead of making extreme alignment changes, I'm using turning vanes, and alignment settings to have in effect an extreme toed out wheel. The jetting vortex plays nicely with the front splitter and rear diffuser, and so the aim is to use turning vanes so that air hits the inside of the wheel just right to get the strongest vortex. It's not so easy because the effect is useless in a straight line, and getting it to work when the car is in yaw/cornering is very difficult because the size of the turning vanes is limited due to space. So the vanes have to be designed precisely to align the airflow under yaw conditions. I'm just researching all the perturbations that could affect the flow field, that way I can compensate for them to get the desired flow pattern.