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skid
3rd April 2010, 12:05 AM
Okay, I'm really just creating this post to be the first poster in this forum.

Anyways, there are probably hundreds of rivers and streams that could be used for generating electricity using the old fashioned water wheel. I'm not referring to the overshot or breast wheels, but the low tech undershot wheels which just sit in the river or stream and allow the current to rotate the wheel.

skid
3rd April 2010, 12:18 AM
Okay, now that I got that post in:)

The old fashioned undershot wheels had like 30% efficiency. Then came along a guy named poncelot, who had an understanding of hydraulics. Instead of a pure impulse wheel which used the impact of water against the straight vanes in the water wheel, he designed a curved blade. Water rose up the curved blade and the weight of the water increased the efficiency of the wheel from 30% to 70 - 80%.

These wheels were used up until the early 1900's for grinding grain and supplying mechanical power, when other cheaper (electrical) technology came along and replaced them, and they eventually were all retired..

Fast forward to today: They still are a viable option for creating electricity in a decently flowing stream or river. New wind power generator technology using low rpm rare earth permanent magnet generators are now available.

A stream flowing 10 feet/second can generate 3-5 KW easily with a relatively small diameter water wheel. If one has a few hundred feet of river frontage, they can easily generate 10-20kW 24/7. If your jurisdiction allows you to backfeed and turn the meter backwards, there is plenty of money to be made.

I have drawn up plans for the prototype, and will create my first over the next year or so.

The first thing to do is to pour the concrete pads on the river bank to install the unit to, which is what I will do this summer.

JohnQPublic
3rd April 2010, 06:44 AM
Okay, now that I got that post in:)

The old fashioned undershot wheels had like 30% efficiency. Then came along a guy named poncelot, who had an understanding of hydraulics. Instead of a pure impulse wheel which used the impact of water against the straight vanes in the water wheel, he designed a curved blade. Water rose up the curved blade and the weight of the water increased the efficiency of the wheel from 30% to 70 - 80%.

These wheels were used up until the early 1900's for grinding grain and supplying mechanical power, when other cheaper (electrical) technology came along and replaced them, and they eventually were all retired..

Fast forward to today: They still are a viable option for creating electricity in a decently flowing stream or river. New wind power generator technology using low rpm rare earth permanent magnet generators are now available.

A stream flowing 10 feet/second can generate 3-5 KW easily with a relatively small diameter water wheel. If one has a few hundred feet of river frontage, they can easily generate 10-20kW 24/7. If your jurisdiction allows you to backfeed and turn the meter backwards, there is plenty of money to be made.

I have drawn up plans for the prototype, and will create my first over the next year or so.

The first thing to do is to pour the concrete pads on the river bank to install the unit to, which is what I will do this summer.


Be sure to take pictures and post them!

cigarlover
3rd April 2010, 07:23 AM
Well, first let me say thanks for this info. I didnt even consider this but I am now. Do you have any links on how to build one and whats needed? I'll take a photo of my brook later and maybe you can tell me if I have enough flow to set this up?

skid
3rd April 2010, 09:39 AM
CigarLover -

Measure the depth of the water source near your bank. You want to be able to place the wheel as close to the shore as possible. Next measure off a 100 foot section along the bank. Have someone drop a stick or other floating object into the stream, and record the amount of seconds it takes to travel that distance. The faster the better. When I have more time I will post some very interesting links. I have plans for water wheel water pumps/aircompressors as well.

7th trump
3rd April 2010, 09:24 PM
Been working on a circuit that doesnt use large expensive KVA transformers to get 220/110vac.
It'll use a digital oscillator going through a filter for the 60hz sinewave and a voltage multiplyer coupled together with 12v deep cycle batteries in parallel which can be kept charged at 12vdc with solar cells or dc 3amp motor.
The batteries are the source of high current required to initiate household items like fridges and well pumps.
It'll use a small center tapped transformer to get the required phase differences for 220vac before going to the 600v, 200 amp amplifiers.

Looks promising

skid
4th April 2010, 10:05 AM
Been working on a circuit that doesnt use large expensive KVA transformers to get 220/110vac.
It'll use a digital oscillator going through a filter for the 60hz sinewave and a voltage multiplyer coupled together with 12v deep cycle batteries in parallel which can be kept charged at 12vdc with solar cells or dc 3amp motor.
The batteries are the source of high current required to initiate household items like fridges and well pumps.
It'll use a small center tapped transformer to get the required phase differences for 220vac before going to the 600v, 200 amp amplifiers.

Looks promising


7th Trump,

I'm trying to understand what you are saying, but you're not being very clear. The PM generaters i am considering are 3 phase 600V. I have approx 350 feet from river to house, so the higher voltage will allow thin conductors to the house. (I will also have a 3 phase 600V electric pump motor for irrigation at the river). There I will use a phase converter/Xformer to convert to single phase (or use a single leg for 208V) to drop down the voltage to normal house hold levels (not sure if it will be 208 or 240V).

Since I will be backfeeding the grid, any excess will be fed backwards, or if I'm not supplying enough, I will get feed from the grid as well. In the event of grid loss, any excess will be fed into my hot tub or custom toaster (resistor banks). There will be no batteries in the system, as I don't want to maintain them and they are unnecessary on a HV system..

7th trump
4th April 2010, 10:52 AM
I've come up with a circuit that uses a digital squarewave 60hz frequesncy that is ran through a 6th order butterworth filter to get a perfect sinewave.
Whats significant about this is I have designed a circuit (in testing phase) that bypasses the huge 10KVA transformer needed to power a house to go completely off grid only using a 12v dc recharging source like an alternator or solar panels.
I'm not sure if you know much about electronics or electricity but the transformers transforms voltages up or down but the current is inversely porportional. Meaning that if you have a 12dc source with 120 available amps that by the time its turned into ac and tansformed into 120vac you will not have 120 amps. What you will have will be something like 10 amps at 120 vac which is not enough to run all your lights and a refridgerator.
My circuit is injecting the available current from the 12vdc batteries at say 1000 amps into 120 vac having an end result of 1000 amps at 120 vac without ever using a transformer that drops the current way down in order to achieve 120 vac.
This way 12vdc solar panels producing 50amps or any amount of current can keep the charge on the batteries and supply what ever is needed to run the house.
Four or so solar panels are enough to keep the battery bank charged for night time use and recharge the batteries during the day.
I ran some 5watt leds on a battery that wouldnt start a car for over 6 hours last year during a power outage. There was enough light from these leds to my garage was completely lit up like a christmas tree where cars driving by were trying figure out how I was doing it with no generator.
The battery never went below the voltage it was at when I started and the light you couldnt look straight into

7th trump
4th April 2010, 11:07 AM
My house is currently being rewired with 18ga two conductor to the lights as a second dc power source for these new leds lights I'm making for each room. Each room is getting four 10 watt star leds which close to having three standard 60 watts light bulbs. Very little heat and at 12vdc 700ma its nothing to stay lit for hours on a car battery. Very little current is used from the grid if I keep it on grid power, but for now its ok as I'm testing the whole system.........well particially anyway until the rest of the house is wired up.
When grid power goes out the batteries will automatically kick in to run the leds and the frig will have its own converter which shouldnt be any bigger than the standard audio amplifier housing you find in the cars today.
I just need to run some serious gauge wire from the batteries to where my frig is.
Hopefully this takes off and I can tell the local power company to come and pull the meter and then stay off the property.

skid
4th April 2010, 11:36 AM
OK I understand what you're saying now. In my case, because I will have plenty of wattage, I will not require the setup you need due to low wattage solar panels being your power source. If I go with several water wheels (eventually), I will have the equivelant of 20-40 generating hp (12-24 Kw) I will be able to run several homes as is, just like getting power from the grid.

My only issue will be explaining where I get that much power from, and perhaps getting the required permitting to do that. I already have a irrigation water license that allows me to build a diversion structure, so that will probably suffice for the first wheel, as the wheel can also pump water (see attached for basic principal - http://www.earthgarden.com.au/waterwheel.html ). Additional wheels will require permitting since I live on a fairly famous white water rafting/steel head fishing river and the wheels would certainly be noticed.

skid
4th April 2010, 03:35 PM
See this link for some good water wheel Info.

http://www.backwoodshome.com/articles/behrens16.html
http://www.backwoodshome.com/articles/behrens17.html

My location is along the outside bend of a river where all the river's energy is concentrated, and the water is 3-4 feet deep right beside the bank . Stream velocity is 10 feet/second under normal conditions, double that in fall rain conditions

The poncelot wheel i will make will be made out of corten steel which is rust resistant, and will naturally camouflage it. I have detailed information on a curved blade design that will maximize efficiency.

I have a considerable mechanical background, and have access to a full machine/welding shop. Instead of relying on wooden bushings, and primitive lubrication like existed 100 or more years ago, modern materials/bearings/shafts/gearing will be used throughout.

Most wheel parts will be laser cut, except the buckets which will be rolled to match the optimum profile. They will then be either welded (buckets) or bolted into place (wheel quarters). I will probably build a few spare parts at the same time for the inevitible breakdowns/damage that will occur.

I would supply a drawing of my water wheel mount arrangement, but am considering patenting/manufacturing it if it works as well as I hope it does. I need to test it first.

The river height varies by approx 3-6 feet year throughout the year, so easily adjusting wheel height is important. In extreme flood conditions, being able to remove the wheel from the water and above bank height is important

Consideration for debris impact is important, as during high water conditions logs float down the river. The mount design I am contemplating will be counter-weighted, so any impact on the wheel will raise the wheel downstream in an arc., then lowering it when the debris is passed. This will also work well with unwary kayakers and river rafters:)

Saul Mine
4th April 2010, 07:03 PM
Ten feet per second is close to 14 miles per hour, which is a fairly fast stream. If you have such a stream I can understand why you would be so enthusiastic about the project.

cigarlover
6th April 2010, 07:40 PM
Well, I checked my stream and its nowhere near deep enough. I may be able to put in a pond though and divert the stream into the pond. Then I could put this at the other end of the pond. I wouldnt be able to generate power all year long though. I may be better off going to solar panel route.

skid
7th April 2010, 06:29 PM
If your stream has 6-10' of drop , you could divert a chute from it and run an overshot wheel, or if you have even more drop there are many other options. One of the most reliable hydro generating schemes uses very little water but lots of head (drop). A little Pelton wheel may work well for you.

Hydro is supreme because it generates 24/7, not just when the wind blows and the sun shines. How deep is your stream?

There are many options for hydro. I'm just going with a water wheel because it suits my property the best.

Celtic Rogue
28th April 2010, 07:55 AM
Hydro sytem combined with solar and wind... triple redundant!