h a l f b a k e r y0.5 and holding.
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I'm thinking cities or towns with reservoirs high enough to gravity feed the whole system. And the generating pipes would continue throughout the entire length of the system. Sure the turbines would impart friction to the flow but that would only limit certain systems. I'm not thinking of only one section of pipe, I'm thinking the whole system. |
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I saw this on the History Channel. The
Romans had waterwheels at the end of
the aqueducts. |
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This idea results in very low water pressure downstream of the turbines. bone. |
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How much drag would the Archimedes screw inner sleeve create? Installing the electroplumbing in large water mains (large cities' water supply flow is formidible) shouldn't have too much of an impact on water pressure. |
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How about installing the electroplumbing in rivers? Pipes ten, twenty feet in diameter, river flowing harmlessly through spinning the internal sleeve. Instead of damming across a river the electroplumbing would lie inside the river. It wouldn't disrupt the flow at all. |
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The power generated is (ignoring inefficiencies) the pressure drop across the turbine multiplied by the volumetric flow rate. You want power? You need pressure drop. |
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But the inner sleeve of the electroplumbing pipe is more of an Archimedes Screw or a double helix. The water pushes past the baffles or blades causing them to rotate inside the outer pipe sleeve. This acts as the rotor of a generator. There are magnets embedded in and windings around the inner sleeve. |
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Your anno starts with "But" however I see nothing contrary to the point I made prior. |
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"But"... the linear aspect of the shape of these long curving, twisting, "channels", in my world, would not result in cavitation or a drag inducing pressure drop. The water runs along the entire length of the blade on both sides of it. There is no violent slicing as with a conventionally pitched turbine fan blade. The water moves along, inside the pipe, pushing on both sides of the electroplumbing double helix blade. There is no Bernoulli effect to account for. |
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Putting the pipes in a river, I imagine you'd need a funnel type of opening to speed the water up and really push it through the pipes though. Sure it needs tweeking... |
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You *DON"T* want this in rivers. |
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In this house we obey the laws of thermodynamics. |
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//Putting the pipes in a river, I imagine you'd need a funnel type of opening to speed the water up and really push it through the pipes though.// |
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Gee this sounds more and more like a dam to me. With thousands of years of human ingenuity and engineering accomplishment why do you think it is that we still are building dams in rivers to generate electricity and not helical screws. |
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//which depleats water pressure// OK you lot! Pipe down!
Own up!
Which one of you pleated the water pressure? |
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You take energy out of the water flow, it has to come from somewhere. Even if it's really smooth, well designed etc such that there is no unnecessary drag, you need a force to spin your generator. The water has to exert that force on your archimedes screw. Newton's Laws state that the archimedes screw will then exert the same force on the water. This will slow it down. |
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If it's in a river, then because water is flowing more slowly through the pipe, the rest is going to pile up until it's high enough to go over the top. You've then essentially created a dam. |
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[xavier] re. link: I don't think it's reasonable to cite
"use by Portland" as validation of an idea. |
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As I understand it, Portland is particularly suited for
this idea (high rain fall, high water catchment). I
found it interesting that a company was prepared
to invest in capturing a relatively small amount of
energy - enough to power 150 homes according to
the article. |
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Kelvin doesn't get a mention even though micro-piping has been developed. |
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