Ā鶹ֱ²„app

Ā鶹ֱ²„app wins 2017 World Human-Powered Speed Challenge

Bike's pilot, Calvin Moes, becomes the fastest person in the world this year
Photo of Calvin Moes
Calvin Moes is the captain of Ā鶹ֱ²„app Engineeringā€™s Human-Powered Vehicles Design team and the pilot of Eta Prime, its latest speedbike. (photo by Tyler Irving)

Ā鶹ֱ²„app Engineeringā€™s Human-Powered Vehicle Design Team has won the 2017 World Human-Powered Speed Challenge.

The team's recumbent bicycle, named Eta Prime, was clocked at an impressive 127.6 kilometres per hour ā€“ the fastest in this yearā€™s competition.

The annual competition drew elite groups of engineers, athletes and students from around the world to a desert road outside Battle Mountain, Nev.

ā€œIt's Burning Man for bike geeks,ā€ Ā鶹ֱ²„app's Jun Nogami told Inside Science.

Eta Primeā€™s design is modelled on Eta, the vehicle that currently holds the record for the worldā€™s fastest bicycle at 144.17 km/h. Eta was built by AeroVelo, a company founded by Ā鶹ֱ²„app Engineering alumni Todd Reichert and Cameron Robertson.

Eta, which did not race at this yearā€™s competition, was the result of a long-standing collaboration between AeroVelo and the Human-Powered Vehicle Design Team (HPVDT), so it was only natural that the team built on this expertise to create their next vehicle: They used Etaā€™s molds to cast Eta Primeā€™s carbon-fibre shell.

ā€œWithin a millimetre or two, it has exactly the same shape,ā€ said Moes. ā€œAs far as we know, it is the best shape for a single-person speedbike in the world.ā€

Still, there were aspects of Eta that Moes and his teammates felt could be improved. They overhauled the carbon-fibre frame that holds up the vehicle and redesigned both the rear wheel and braking system. Through a combination of innovations, they were able to create a bike that was 20 per cent lighter than Eta, while maintaining its internal strength.

But as with any speedbike, much depends on the engine ā€“ that is, the rider. ā€œYou can build the best bike in the world, but if you canā€™t produce the energy to get it up to speed, youā€™re not going to get there,ā€ said Moes.

To provide this power, many of the approximately one dozen teams in the World Human Powered Speed Challenge hire semi-professional cyclists. HPVDT does not, though Moes did undergo extensive training. Over the last eight months, he said heā€™s managed to reduce the gap in power output between himself and Reichert, Etaā€™s rider, by about half.

Calvin Moes (left) and Cameron Robertson in 2014, with a previous bike design (photo by Andrew Francis Wallace via Getty Images)

ā€œThe fact that we reach the same speeds as the other teams, and in some cases, even surpass them, on significantly less power than their riders can produce is remarkable,ā€ said Moes. ā€œIt speaks to the amount of engineering that went into this design.ā€

Nogami, a professor in the , is the teamā€™s faculty adviser, and travelled with them to Battle Mountain to act as a timekeeper.

ā€œIt is incredibly valuable for students to participate in design teams, and then to appear at international competitions,ā€ said Nogami. ā€œIā€™m proud of the way the team pushed through adversity to finish with the overall title. Congratulations to Calvin, who is the fastest person in the world for this year!ā€

Though the competition was intense, Moes said the atmosphere at Battle Mountain is friendly.

ā€œThatā€™s actually one of the best parts of the event,ā€ he said. ā€œWe interface with the local community, and display our bikes to students in local schools. Teams will go and talk to each other, and inspect what new design features each bike has. Itā€™s wonderful to be part of this elite group of racers, and learn from experiences that we wouldnā€™t get anywhere else.ā€

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