The new ‘thing’ that the UCI is into is ‘mechanical doping’. The term ‘doping’ is clearly used in the same fashion that one can be a ‘chocoholic’. Let’s assume this part of the recent story is humorous.
The past couple of weeks have brought us rumours of the UCI having discovered the first electrically enhanced bicycle at a cyclocross race, and then videos of officials ‘scanning’ a bicycle with a tablet computer have also appeared. Now, the facts are few: all that we really know is that the UCI may have lost the most important races of the season from ASO, the body who owns the Tour de France and some of the other pivotal road cycling events on the calendar. This may call for some PR stunts, might it not?
Firstly, detection of large batteries, motors and planetary gear systems in a plastic bicycle would be easily accomplished with a DIY shop stud finder like THIS one for £40. Also, road race bikes weigh between 6.8kg and 7.5kg: so if a rider turned up to a race with a bike that weighed 7.8kg, this would be silly. If a rider turned up with a bike that weighed 8.5kg you would have to wonder what was going on. I mean, high end steel bikes in the 1980s weighed less than 8kgs, so using scales would also be a fast way of detecting a suspicious bicycle at a race. Understand, UCI?
Back to the alleged ‘doping’. THIS is the video in question, which seems to provide the speculation on Fabian Cancellara.
Going back to the weight, the motor unit and its battery (VIVAX) weighs “just” 1.8kg, which is light for an e-bike system, but would put most racing bikes over 8kg. If you read BikeRadar’s review of the Gruber system, they also mention how noisy it is, so there is a good likelihood that another rider would hear the motor. Carbon bikes sound like a bit of paper being flapped, and don’t produce a high-pitch whine.
If it weren’t for the BikeRadar article, I speculated that these units may not actually exist. Most of the images available online are not of photographic origin, suggesting they may be non-existent prototypes. Might I also add that the BikeRadar article does say that it cannot be installed in a carbon frame. I shall get to this later.
I don’t think the videos show anything erratic in sufficient clarity with regards to Cancellara’s hand movements, which the narrator is suggesting implicate that he is pressing a button to activate the motor. The video is of sub-PAL resolution. What the video does show with reasonable clarity is that Cancellara’s body movement does not change from the way he was pedalling previously: in the second clip (5:20) on the cobbles in Flanders he is bobbing quite a lot, suggesting he is fatigued but pushing. When he shifts gear he increases cadence, and moves forward. I think that if you had an additional 200w (the rumoured advantage of these systems) he would stop bobbing and take a more composed pedal stroke, and also drop gears to slow his cadence.
A historical point is that EPO allegedly gave riders 1% increase in endurance (a figure I recall from some documentary, though this article is suggesting much more), which over a 4 hour race could be significant. Both Pantani and Armstrong would take off like Cancellara in those videos, and we know that taking off in that way is not 1%, but rather something like 40% for a minute or two. So that kind of acceleration should be within the human athletic ability, and not made possible by blood transfusion or taking drugs.
Back to the motors, I am also curious about the structure of these things. The BikeRadar article suggests that the seat-tube motors can’t be installed in carbon frames, and I can assume that this is because they do not have smooth tubular interiors. The motor is held in by two 4mm bolts, screwed in from either side of the frame. So these are visible fixings (UCI?). Also, for that gear to not slip, the whole motor shaft would need to be held rock solid in relation to the bottom bracket spindle: holding it by two bolts would mean that it would tend to flip fore/aft. I would suggest that to be functional these motors would need to be fixed solidly to the frame within the bottom bracket shell. The lack of actual photographs of these drive systems suggests, to me, that they are a conceptual prototype and don’t actually exist. But this is also speculative and contradicted by the BikeRadar article. Also, most of the images of the motors show oddly angled gears which—to my understanding—would tend to push the motor up, and possibly slip, rather than pulling it in to keep it from slipping.
My conclusion is that I am extremely skeptical. I think there is a high probability that the UCI is trying to gain ‘good’ PR in light of the quarrels with ASO. I think the motors would be too noisy to ride in a group without competitors being aware of them. I think that the weight of 1.8kg is pretty high, and am doubtful that it could actually deliver sufficient power to make this weight increase viable in the hands of the cycling elite. I am skeptical that these motor systems work as they claim, as the fixing system looks delicate and subject to engagement issues, especially within the large, boxy, tapered tubes of Cancellara’s Specialized bike. And finally, I don’t think Fabian Cancellara would actually take this kind of a risk. Not that I am a fan, nor foe, but I just don’t see it within him.