I had my fair share of fun over the last months with a 29er hardtail with a Bosch 250w crank drive motor. Usually it is said to be 'ganzo' or somewhat of a 'tractor'. It is rather impressive how it climbs on steep stuff, feels safe if not nimble and is easy to use. The mighty increase in torque* means that on soft, loose ground traction and flotation are far more often the limiting factor for that ebike than power. This is why an electric fatbike interests me so much that I will certainly test the macina freeze by KTM.
The touring bike market seems to have come up with more and more solutions to carry loads in a practical manner, but bikes are still rather limited as you rightly point out. The latest Swiss military bike 12 shows that a full-suspension bike makes some methods quite complicated. I have no experience with bike touring so I will leave it there for now.One problem likely to be encountered with military use is that the bicycle has limited adaptability to carrying weight, and troops these days carry a lot of that. A load on the rider's back is very unstable at speed and not healthy for the rider: a standing or walking position allows you to carry a load primarily on you hips; a natural cycling position does not, and any load on the back tends to put a lot of stress on the rider's lower back, especially on uneven terrain. The traditional solutions, panniers and handlebar bags, have limited capacity.
While I see such ebikes more in support and recce troops then combat the potentially very heavy burden of soldier plus load compared to a fit biker with his light gear is indeed a big problem. Full-supension, engine and fat tyres should help a great deal to increase the ride comfort and mobility and make it easier to drive in more challenging terrain. While it will be far harder to haul/carry over obstacles the relative new 'push-assist' makes it rather easy to push so equipped ebikes up steep slopes. Adjustable regen breaking is also a plus. This is of course relevant to the question raised by Biggus:
I'm a bit sceptical on that, but military forces with low budgets and low personal costs might make a good of cheap Chinese ebikes or eScooters. About question 2, it should be quite possible to design a bike battery which right now have mostly 400W from which you can recharge other gear.Question #1: Do the bikes necessarily need to be ridden, or is it enough to strap a load to them and walk alongside? I'm thinking of PAVN troops on the Ho Chi Minh Trail, not so much mounted Swiss troops. Perhaps a bike or two per section or squad might take a significant portion of the load off the backs of some of the dismounts patrolling in Afghanistan.
*Torque is of course a big strenght of electric engines. It is important to point out the following about pedelecs:
The most influential definition which defines which e-bikes are pedelecs and which are not, comes from the EU and as such is valid across the whole of Europe. From the EU directive (EN15194 standard) for motor vehicles, a bicycle is considered a pedelec if:
i) the pedal-assist, i.e. the motorised assistance that only engages when the rider is pedalling, cuts out once 25 km/h is reached, and
ii) when the motor produces maximum continuous rated power of not more than 250 watts (n.b. the motor can produce more power for short periods, such as when the rider is struggling to get up a steep hill).
An e-bike conforming to these conditions is considered to be a pedelec and is legally classed as a bicycle
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