View attachment 49981
Now that brings me to a (related) question I've often pondered over and that is, from the e-bike point of view, are cycling at certain speeds more battery efficient than others?
- So I ride with a TSDZ2 motor (torque sensing) set to cut off at 25kph
- The battery power used is proportional to my input yes? (that's what torque sensing is all about of course)
- Given that wind resistance increases with speed, then it must be the case that a proportion battery energy is used to overcome that wind resistance too?
- From the battery use/efficiency point of view, if I was at standstill with the motor off or going over 25kph, with the motor having cut out, the battery wouldn't be used (much) at all.
- So the question is, is there a sweet spot of max efficiency somewhere between zero kph and 25kph or is it a linear relationship between these two limits?
Discuss, as they say.
As a guy on a bike you are probably not so easily intimidated by traffic. However, if you are a woman on your own or if you are a child cycling to school, it's a different matter.
Would you let your 8 year old cycle through HGVs, Buses and fast moving traffic? In the NL, infra is designed so that it can be used safely by anyone from 8 upwards. So children there cycle to school and get used to cycling in all conditions.
Cycling in the rain and cold isn't always a lot of fun, but it's a lot less of a stress than worrying how you are going to pay the bills to keep a car on the road. If you do a search you will find examples where people have calculated the cost of running a car and you can compare that to average household incomes.
Bike motors are usually designed to reach peak efficiency at 25kph, so about 80% at around 200 to 250 rpm. This is independent of air resistance. There will be a compromise speed to give best speed for a given energy input. Have a look at some of the online simulators.
