Jerry:
Nice to see your thinking. My thoughts:
1. Forget the series hybrid. The loss in efficiency is big, much worse than a heavier rig with more batteries.
2. There's a rough equivalency between a gallon of gasoline and about 8kWh of Lithium batteries. Jack Rickard had a decent technical explanation for it (ICE drivetrains are about 25% efficient, EV drivetrains closer to 80%) but whatever the math, I've been able to verify this rough number across a fairly large sample of Lithium-batteried EVs. So, if your glider got 30mpg with a gas engine, it will need about 10kWh (its really 8, but you can only do that safely over the long term by drawing no lower than 80% DOD on a 10kWh pack) of battery to do those 30 miles. Now we see the relationship between hypermiling and having a long range EV...
For your purposes, you can work backwards: 60Ah of TS or SE batteries is 3.2V x 60Ah x 45 Cells = 8640Wh. 80% of that is about 7kWh. So you have about 7/8 of a gallon of gas there.
Now, if you want to go 70 miles on that, you need a reverse trike (or any vehicle) that could go 80 miles on a gallon of gas if ICE powered. That's a tall order, indeed. I know of only one vehicle that could do it, but its way smaller and lighter than what you're thinking about:
View attachment CalCom SideViewBW.JPGhttp://www.canosoarus.com/03CalifCommuter/CalCom01.htm
Craig Vetter has been trying for a couple of years to get that kind of mileage out of a fully faired Honda Helix- and after 3 years he's dialing in on it:
http://www.craigvetter.com/pages/470MPG/Freedom-Machine-intro.html
Beyond that, only 125cc and 250cc motorcycles with full fairings are in this efficiency class. My reverse trike will carry a 6kWh pack, so about 5/8 gallon gas equivalent. I think my range will be 35-40 miles, which means I'm rating the trike at about 60MPG. I'm shooting for about 125Wh/mi, and I've got a single-seater half the weight of your trike. If my design comes in at 95 Wh/mi great, I'll have a 50 mile range, but I'm not counting on it. Motorcycles and scooters that do better than that generally don't go as fast as I will be going. I think you need to at least double your pack to get the range you are looking for- but then everything gets heavier, and fast, as that extra 250lbs ripples through the design needing bigger brakes, frame, wheels, etc. etc. I'm not trying to discourage you, just pointing out that these projects are involved and expensive, and if you wound up with a range just under 40 miles after all that work, you'd be unhappy, no?
Try it this way- look up all the Lithium vehicles you can find in the EV album. There really aren't that many. See what they are reporting for range and pack size. Think about their weight and aero packages, and how much more efficient yours could really be. Take a close look especially at the bikes and motorcycles. Also, be skeptical about claims of range- its pretty well established that many people are just reporting impossible figures, whether they are mistaken or dishonest doesn't really matter.
The whole point of this observation is that I think you are being optimistic about the efficiency (and range) you can get out of your design. The more I have dug into this problem, the harder it all gets. I started off with a 750lb vehicle I thought would go over 100 miles. Now I'm trying to get a 650lb vehicle to go 50, and I just don't think it will. I'd love to be surprised, but I'm making damn sure not to be disappointed.
3. I think you'll need to rethink the low motor speed approach. Chain drives are pretty efficient, and would likely offer much less drag than the corresponding loss of efficiency (and heat generation) of running the same motor without the reduction drive. I don't think you'll find any vehicles out there with the motor speed and power profiles you're suggesting, and there's probably very good reason for that...
4. Really prioritize your needs and goals. Get the hard requirements pinned down, and identify those things you care less about, put ranges of acceptable values on them, and try to weight those ranges with your preference points. Then at least you won't have 50 variables moving around with no connection to reality as you start planning and noticing that the project can morph into almost anything, so long as there are no budget or time constraints, and no specification is really a hard requirement. You're at one of the most fun stages of a project, but also the most challenging- It is very hard to solve problems until they are clearly enough defined, and harder still to pick a direction when so many of them show promise. Let me make one such (screwball) suggestion that surely could have made my life easier if it had worked out:
Can you fit into a Lotus Europa? If you can, this would be the easiest, coolest and most fun way to hit your target. You can get a clapped-out Europa for a few thousand dollars. A fair amount of fabrication and $10-$15k more and you'd have all your objectives met, as well as one really cool, recognizable car- not just an EV toy you made yourself. Unfortunately, I'm just too big for a Europa. My next EV will probably be a late 1970s Lotus Elite, for many of the same reasons. I have some really cool ideas for how do do that. Remember, the Tesla is a Lotus. Just a thought...
TomA
