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He hasn't paid for fuel in 10 years, has never run out of charge, and was inspired by a famous race across the outback. Retired industrial engineer Ziga Dorkic wants to show you how it's done — for the Earth.
Thought of you fine folks when I came across this article on aussie.zone
I want to build a tadpole recumbent / cargo bike for shopping, then maybe a quadricycle and a velomobile with motor for pedelec. I wish they’d allow pedelec up to 50km/h instead of 25 without needed certification and insurance. That’d be a huge boost for the environment. But even the L1e with 45km/h seems purposefully gimped for city traffic to protect car manufacturers.
But a proper “recumbent motorcycle” that can go 100km/h with 3 or 4 wheels and is ultra lightweight would be awesome too.
Myself, I went for 45 km/h officially (unoffially, on a flat road, I could reach 53 km/h). While turning, for safety reasons, I limited myself to far lower speeds (25 km/h).
Designing a car suspension system for reasonably high speed seems hard, I have never tried, instead choosing the robust and crude solutions to get a reasonable assurance of strength.
Motorcycles seem easier. Especially since most of factory-made motorcycles use a sprocket and chain - a very flexible system for dropping in other power sources. I imagine that with enough know-how to get through type certification, a lot of combustion bikes could become e-bikes with excellent riding characteristics. :)
Oh wow very nice, congrats!
I want to build a tadpole recumbent / cargo bike for shopping, then maybe a quadricycle and a velomobile with motor for pedelec. I wish they’d allow pedelec up to 50km/h instead of 25 without needed certification and insurance. That’d be a huge boost for the environment. But even the L1e with 45km/h seems purposefully gimped for city traffic to protect car manufacturers.
But a proper “recumbent motorcycle” that can go 100km/h with 3 or 4 wheels and is ultra lightweight would be awesome too.
Myself, I went for 45 km/h officially (unoffially, on a flat road, I could reach 53 km/h). While turning, for safety reasons, I limited myself to far lower speeds (25 km/h).
Designing a car suspension system for reasonably high speed seems hard, I have never tried, instead choosing the robust and crude solutions to get a reasonable assurance of strength.
Motorcycles seem easier. Especially since most of factory-made motorcycles use a sprocket and chain - a very flexible system for dropping in other power sources. I imagine that with enough know-how to get through type certification, a lot of combustion bikes could become e-bikes with excellent riding characteristics. :)