• Solar Challenge 2 time winner - 2009, 20011 - Tokai Challenger - 62 mph average for Solar Challenge Winner- 1.8 kW PV array, 30% efficient, 352 lbs, 16'7" by 5'5" - [1]. 90 square feet of area.
• Increase that to 24 feet long x 8 feet wide (192 square feet) (2 kw) - like a trailer - to double the area. Use non-exotic solar panels to keep cost reasonable with solar. Add 20 kg of lithium ion batteries for 4 kWhr [2] of power, and a small backup engine (2kW) - for one hour of up to
• PV panels - 1650x990 cm is 17.5 sf. See slide 12 of Open_Source_PV_System#Initial
• 11 of these panels fit on the 192 sf area. Each is 285 watts for 3100 W total. Under normal conditions - power should be 1.5kW. If we double that with an internal combustion engine for 3-4kW - we are pretty good to go for sppeed.
• The main challenge in using Open_Source_PV_System#Initial PV panels is that they weigh 19kG each - so 209 kg total. That is 460lb already. Small engine would be 5 lb, and batteries at 44 lb - with frame + drive at 240 more lbs. That makes for a 750 lb vehicle.
• Can we get frame to within 240 lb? Yes, with carbon fiber composites. But aluminum would be tough. Suggestion: 3D printed frame as skeleton for carbon fiber layup.
• Frames - carbon fiber is 5x less weight than steel frame, and 2x less than aluminum. [3]

OSE Implementation

General

• For a practical 200mpg equivalent solar car for OSE, we can think of a box truck with a roof to carry 20 solar panels, 2 2kW silent generators for auxiliary power, and open source electric motors. It would also have a 1Kw battery pack from r rapid acceleration,such as 20kW boost for 3 minutes.
• Solar power would be on the 24x8 foot roof - 200 SF for 3kW of power. There would be telescoping extensions to double power to 6kW for cruising speed.
• It could potentially telescope to 9kW total when standing for rapid charge, but this may not make much sense if small size and small battery pack are used. $1k gets us up to 3.3kW of battery storage.
• This would be quite the vehicle with battery, solar, and wood gas.
• Carbon neutral, unlimited range.
• Practical
• Curb weight of 1000lb with plastic fiber composites that are 3D printed.
• 120lb generator for 3 running kW
• 3kW panels (30 panels) weigh 96 lb.
• Structure - 500 lb
• Motors - 100 lb for 2x10kW running power
• Batteries - 15 kg for 3kW
• 9 running kW - 40kW peak for 30 seconds
• 3D printed airless tires

Specific Case 1

• Vehicle lengths in the USA are typically 65' [4]
• This is 8x65=520 square feet, or 48 sq m.
• Take a Sunelec panel - [5] - Heliene 300 - 65.5 × 39.4 in - for 300w. [6]. 2581 sq in or 1.67 sq m. This is 180W/sq m.

Links

• Honda Insight - [7]
• Extreme U