I think that is really neat. It has a - IMO - very futuristic look to it.
After making the first human-powered ornithopter and helicopter, this should be a slam dunk for the Aerovelo team.
Cameron Robertson
Hi Adam, thanks very much for the great article. Just wanted to say that our team has made much more than 1% improvement in each of these areas. We have done a "sensitivity analysis" to determine the impact (on top speed) of 1% improvement in each of these areas, but as I say the improvements we've realized with the new design are much greater. Thanks!
Cornelius Carroll
They should get Andrew Starykowicz to pilot this thing :p Cameron: your team might benefit from looking into aero and crr tire data over on Specifically, look for jackmott, TomA, and rruf. They've been testing commercially available tires for years and have troves of data. Not sure what sort of compound your tire has but, IMO, you'd be hard pressed to beat the Continental Supersonic in 700x22 for crr. If you desire a tad bit more durability look at the Continental Attack 700x22 or the Schwalbe Ironman 700x22. As for a drivetrain, you'd be hard pressed to beat a fresh chain dura-ace chain from Friction Facts or Speedplay Zero pedals. I know you guys build a lot of bespoke components for this sort of thing but you've got to keep in mind that there's been an industry chasing aero and crr improvements for a long time now.
Not a bike, but a "rolling egg" (lol)
Bruce H. Anderson
I remember a MythBusters episode where a Ford Taurus was covered with clay and run a distance to check mileage. Then they cut out big dimples based on golf ball dimples and made the same run (with the dimples in a bucket in the back seat so weight was the same). Result: Better Mileage!! The crew was very suprised, but data is data. Since the aerovelo is running about golf ball speeds, I wonder if dimples would improve stability and decrease air resistance. Another option may be sharkskin like the swimmers use.
Can't get excited about things like this as little use. Now had they did an actual practical usable version we need I'd be more impressed. Why is so much energy, money put in things like this vs actually supplying real products that never seem to get built. How about assignment/thesis where they have to produce a profitable product we need that isn't being made? Example is pedal or electric streamliners, home, building size solar CSP units. long lasting low cost wind generators, EV subcars, etc. All can be done with present tech but no one doing it.
I wish AeroVelo all the luck, but besides it they will need the tech and feet they seem to not possess. I don’t doubt the sincerity of their effort, but before making all this noise have they checked or the history of previous records?
Not speaking on behalf of Cameron, but as a sponsor of a competing team and recumbent enthusiast. @Cornelius Carroll : most standard components were not designed for extreme environments such as racing a bike at 90 miles per hour on flat roads. Most teams design specials because they have to. I know the current world record holder (HPTDelft team from the Netherlands) used special designed chains and tires designed for solar cars. The industry you described as chasing aero and speed is very limited by UCI rules. @jerryd : the efforts of HPTDelft are being used in a real world bicycle currently under design. Google for Velotilt and you will find a recumbent tricycle based on the shape of the Velox. @YuraG : have you checked Aerovelo? These guys build a ground breaking flapping wing human powered aero plane and last year topped that with an award and price winning human powered helicopter. Besides that they are long time contenders at Battlemountain and are very aware of what Delft and others are capable off. Why did they not win before you may ask. Good question! My hunch is focus or lack thereoff. Last years they were busy building planes and copters and have now decided to focus on a speedbike. I think they have a really good chance to win it.
I am not sure what you have done and not done but consider this in the design. During different parts in turning the pedals, the optimal resistance for a human to make max power changes. Have you considered designing some type of unusual pedal that actually changes torque depending on where you are in the 360 pedal cycle. I am not sure if the added complexity will be worth the boost in your average horsepower though.