Does this system have adjustable valve timing? I assume it would benefit from having advance on opening the air valves before the peak vertical level of the water in the hydraulic/pneumatic assembly. It'd be cool if the system could be caught or locked at the high position to save energy, but that'd require a perfectly sealed system. I wonder if the shape of the float could be more cylindrical , as the displacement would be linear through the stroke. -Ken
This is the wave technology I’m most interested in. 🖖😎
is it possible to use the energy that is generated from the plunger coming down? for example with water turbines
Does this system have adjustable valve timing? I assume it would benefit from having advance on opening the air valves before the peak vertical level of the water in the hydraulic/pneumatic assembly.
It'd be cool if the system could be caught or locked at the high position to save energy, but that'd require a perfectly sealed system.
I wonder if the shape of the float could be more cylindrical , as the displacement would be linear through the stroke.
-Ken
Interesting!
Amazing
Excluding Slaters, does it use more energy than the other technologies?
We don't have everyone's data, but 14 people can ride each swell line
@@SurfLakes Good point. Thanks.🤙🏼
@@SurfLakes How much energy does your system use in the test site, in real use?