I think the greater wind resistance of the DS, compared with the S, might account for much of the difference. The DS has a seat height that is 3" taller than the S seat. The greater frontal profile of the DS could make the difference at high speeds - along with the increased rolling friction of the aggressive dual sport tires mounted to the DS.
Good point Richard!!! Forgot about that.
That 3" height is almost all tires/wheels/suspension... the bulk of the bike stays the same. With that 3" height and lets say a 130mm width of the rear tire (~15") is roughly 45in^2 more frontal area. Lets kick that up to 60in^2 for good measure because if you do increase front height, you may increase the body cross sectional area a bit... but not by much.
Lets say the Zero itself is 500in^2 of frontal area... it should be close. I threw the values in my old elmoto calculation sheet with a 500 and 560 in^2 cross sectional areas, 0.8 Cd at a 70mph cruise. The drag Coefficient on these is going to be fairly bad since they're unfaired.
96.71Wh/mi for 500in^2 and
106.5Wh/mi for 560in^2
So a ~10Wh/mi change.... and it's right around 10wh/mi for other cross sectional areas I tried... like 400/460, 300/360
Looking at the Zero DS and S (166Wh/mi and 142.9Wh/mi respectively).... frontal area would account for 10wh/mi .... the actual difference is ~23wh/mi... so that other 13Wh/mi is coming from somewhere.
So yes it does effect the wattage useage some. I'd guess that less than 1/2 of that increase is due to increased frontal area. It's amazing what you can do with just changing the rolling resistance of the tires and your cross sectional area..... tucking sounds better doesn't it
