The results are classified in alphabetical order, you'll also find details of rim height as well as the spoke count:
The tests are performed with 21mm tubulars and 23mm clinchers.
Here you can find the values ranked in order of aerodynamic performance:
Interpretations
Obviously, faster wheels tend to have deep rims and a low spoke count. Note that the wheels with Zipp rims are particularly efficient thanks to the curved rim shape (Zipp says Hybri-Toroidal rim) that forces the air flow to slide on the rim instead of stalling. This generates a low drag and you saves a few watts at high speed...
The aero thin and bladed spokes' advantage is easily understandable on the drawing on the left: their wake (drag) is very low compared to standard wider spokes.
Xentis TT, HED, Sonic, Mavic Cosmic, Lightweight 16 spokes, Shimano 50mm, Campagnolo Bora, etc, have very good aerodynamics properties, although their rim is a simple triangle, or is slightly curved, as in the case of the Mavic CCU.
If the air flow stalls quickly, which is particularly the case with flat rims, drag is important, meaning a high power loss at high speed. The Mavic Ksyrium or R-SYS are pretty bad on this point. Mixing flat rims and wide spokes, they behave as parachutes at high speeds. However, it is hard to criticize them since those aren't wheels designed with aerodynamics in mind. This is the case too for the Campagnolo Hyperon, the Vento, the Eurus, the Mavic Aksium, etc.
Please note two special cases.
First, the Shimano 7850 C24 TU has a 28mm front rim. Laced up with only 16 aero spokes, their aerodynamic performance is pretty good for a wheelset that didn't seem, at a first look, to be designed for aerodynamics.
Second, despite their 24 front spokes, the Speedcomposites do quite well. Here too, the mid deep rim (26mm) yields a low drag. The 20 spokes version should perform better too.
For our custom handmade Corima/Tune 20 DT Aerolite spokes wheel, drag is also quite low- a little better than the Fulcrum Racing Speed. It would be interesting to test it with only 16 spokes like most "factory" wheels.
Conclusion
Leaving inertia, bearing resistance and lateral stiffness aside for a moment, deep rims bring definite advantages over shallower alternatives. They are particularly efficient on flat stages and downhills, where speeds are highest.
For Time-trial, or flat races, deep rims with a low spoke count are the best option. Actually, for standard road use, this is the best solution. Indeed, the front wheels have perfectly balanced and wide bracing angles, meaning a high lateral stiffness. Reducing the spoke count of the front wheel is not really a problem at all!
