h a l f b a k e r yIt's not a thing. It will be a thing.
add, search, annotate, link, view, overview, recent, by name, random
news, help, about, links, report a problem
browse anonymously,
or get an account
and write.
register,
|
|
|
|
Now THAT is a half baked idea. I like it. |
|
|
I have the feeling you just taught someone a lesson here. |
|
|
Can I bun it even if *I* don't really understand how it works? ....OK, I did. |
|
|
Its a sub sand whoopee cushion filled with water, with a generator replaciing the brrraaaatulator. |
|
|
would foot traffic boost power generation? |
|
|
Why have a bladder here at all?
Why not just toss the turbine in the sea? Wouldn't the storage vessel be a communicating vessel? |
|
|
Detail is essential. Possible... well, it sometimes helps. The bladder is here because it's a good word. The turbine is not in the sea because it's on top of the bladder. The storage vessel communicates with the bladder via the turbine. The communicating vessel is moored in the bay and beams telemetry from the turbine via satellite. Got it? |
|
|
Sorry [methinks] - hijack averted, plane back on course. |
|
|
That is the quickest chown I've seen in a while [wagster]. |
|
|
"Change ownership" it's a UNIX command. |
|
|
Aha, I call it CDLLAP - Copy Delete Logout Login Annotate Paste. Chown is better. |
|
|
Why bury it? Why not just shape the bladder like a beached whale? |
|
|
Underwater turbines are in current research phases, and do much better than this one by placing it in a high current area. |
|
|
The challenge is having moving parts in saltwater, where corrosion means lots of service needed (compared to wind turbines), and also the environmental impact of cuisinarting marine life, esp. in rich tidal areas. |
|
|
Perhaps this could work if the communicating vessel were very large. Such as a bay. And the bladder too, such as an ocean. |
|
|
I think it might be helpful to reduce speeds or rotating parts: aim for large slow moving components, such as a very large slow turning horizontal turbine, rather then fast moving turbines. This should help save the marine life and it will reduce corrosion problems. |
|
|
If you have ever lived on or near a beach you will discover that sandy beaches can change greatly over time. I have seen beaches move inward and outward 50 feet over a few years. It would be difficult to place something in the sand and have it stay covered. |
|
|
Just to make a clarification here. This is a closed loop system. There is no contact with the outside water or with wildlife. There are 2 moving parts the Turbine(which is realtively small) and a check valve. This also eliminates any issues with corrosion as the only parts to contact seawater are rubber or plastic. The entire point here is that this would not be visible and would not harm wildlife etc. |
|
|
What replaces the water in your storage vessel when the water withdraws? Not vacuum, I'm sure. If air, wouldn't be some part of the system visible? |
|
|
Perhaps your system should have two bladders, one downwave from the other. And no foam, gravity would take care of refilling the upwave bladder. |
|
|
I still think it would be more efficient to do without the bladders and just put the turbine in the sea.. Corrosion can't be that big of a problem.. steel ships deal with it it all the time. |
|
|
This is a fine idea, with many excellent components. Two communicatingbladders with a turbine between. Tide in: bottom bladder compressed, top bladder filled. Tide out, top bladder drains, botoom bladder fills. I like the use of tide for gravitational energy, I like the concealed aspect and I like that the moving parts and widgets are kept safe from the ocean. |
|
|
I too like the 2 bladder approach. i will incorporate that into the idea. This should allow generation in both directions. thanks [jmvw] |
|
|
Surely a water turbine is a hydrine? |
|
|
OK, so a contained system of 2 bladders with a turbine between. |
|
|
However, this would rely on a pressure difference between the 2 bladders. Would you get enough pressure difference? |
|
|
1. You'd have to put one bladder under a wave, and another where no waves go. |
|
|
2. You'd have to have compressible sand. This is the hard part now. You wouldn't need compressible sand if you put this above the sand, below the waves..... |
|
|
I still am more enamored with higher energy possibilites such as the concept of turbines under, say, the Golden Gate bridge (a few billion gallons of water move through each day). (No more fishbone here, though) |
|
| |