A friend of mine sent me these plans for how to build a wind generator. This is a vertical wind turbine design. This wind mill will generate 84 watts, 7 amps, at 12 volts in a 30 mph wind.

Materials Needed

Motor - 260 volts DC, 5 amps, treadmill motor with a 6" threaded flywheel. You can use any other simple, permanent-magnet DC more that returns at least 1V for every 25 rpm and can handle upwards of 10 amps.

Bridge Rectifier With Center Hole Mount - 30 to 50A

Mounting Screw - #8 or larger copper wire, red and black, both stranded. You want to have enough length for both a red and black piece to run from the top of the tower, down through the length of the pole, to the batteries. #8 wire is good, but if your tower will be a long distance away from your batteries, you will need a heavier gauge (just 1).

Spade connectors for wires for the bridge rectifier (4 of them)

Heat-shrink tubing or electrical tape

Batter Bank - You need deep-cycle lead-acid storage batteries and a total battery bank capacity of nothing less than 200 amp-hours.

Ammeter

Regulator or Charge Controller

Fuse

Blades

2' length of 8" schedule 80 PVC pipe - If the PVC is UV resistant, you will not need to paint it.

1/4" #20 bolts, 3/4" long (6 of them)

#20 Washers (9 of them)

Lock Washers (6 of them)

Hose Clamp (Just 1)

Vane

1 sq. ft of sheet metal

Mounting Screws and Lock Washers (9 of them)

Mount At Top Of Tower

36" of 1" square metal tubing or 1" angle iron

2" floor flange pipe fitting

2" steel pipe nipple, at least 4" long

Mounting Screws (2 of them)

Motor Mount

#72 Hose Clamps (2 of them)

Tower Pole

10' - 30' length of 1 1/2" steel pipe, threaded at both ends

Tower Base

2'x 1 1/4" steel pipe nipple (2 of them)

6"x 1 1/4" steel pipe nipple

1 1/4" 90-degree steel pipe elbows (2 of them)

1 1/2" steel pipe T

10 lb. bags of quick-mix concrete

3/4" #10 sheet metal screws (4 of them)

Tower Stability

Guy wire, galvanized steel with a load capacity of 200 pounds

1 1/2" U-boltStakes (4 of them)

Turnbuckles (4 of them)

Tools

Drill and drill bits (5/32", 7/32", 1/4"), jigsaw, thread tapping set, pipe wrench, crescent wrench, flathead screw driver, vise and/or clamp, wire strippers, metal punch or awl, tape measure, level, marker, tape, compass and protractor, shovel, wheelbarrow, several ropes (each at least twice the length of the guy wires), and an extra person to help.

I hope you find these instructions for building a wind power generator helpful. If you need more detailed instructions with diagrams showing each step, or are looking for a dummies guide, go to http://www.mysolarsecret.com/how-to-build-a-wind-turbine.htm

Cutting the Blades

Place the 24" length of PVC pipe and square tubing side by side of flat surface. Push the pipe against the tubing and mark the line along the length of the tube.

Draw parallel lines at 75-degree intervals along the length of the pipe. You should have a total of five lines on your pipe. Note that one strip will have an arc width of only 60 degrees. That's fine.

Use a jigsaw to cut along the lines. Splitting the tube into five stips. Four will be wider than the fifth (60-degrees) strip. Set the 60-degree stip aside for now.

Place the four 75-degree strips concave side down. For each one, make a mark 20% of the width of the strip from one corner along the diagonally opposite side as shown. Mark a diagonal line between the two marks you just made on each piece, and use the jigsaw to cut along these lines. You should end up with eight identically shaped trapezoidal blades. You can trim a ninth blade out of the 60-degree strip left over. You now have enough blades for three generators, or plenty of spares for one generator.

Now you will cut one corner from each blade. Measure the width of the blade (if you are using an 8" diameter PVC pipe it should be about 5.75" wide). Call this value W. Then make a mark along the diagonal edge of the blade, a distance of W/2 from the wide end (3" is good if you are using 8" PVC). Make another mark on the wide end of the blade at 15% of W from the long straight edge (1" with 8" PVC)

Connect these two marks and cut along the line. Removing this corner prevents the blades from interfering with each other's wind.

The Tail

Cut the tail. You can make it any shape you want. The exact dimensions of the tail are not important, but you'll want to use about one square foot of lightweight material, preferably metal.

Using the 5/32" drill bit, drill two or three holes, spaced evenly, in the front end of the tail. Then place the tail on one end of the square tubing, noting that it will attach to what will become either the right or left side of the tubing, as the generator sits upright. Mark the tubing through the tail holes.

Drill holes in the square tubing at the marks you just made.

Attach the tail to the tube with sheet metal screws.

Attaching the Blades

Take three blades. For each blade mark two holes along the long, right-angle side of the blade (as opposed to the long diagonal side), at the wide end, next to the cut-off corner. The first hole should be 3/8" from the long side and 1/2" from the end, and the second hole should be 3/8" from the straight edge and 1 1/4" from the end.3b. Using the 1/4" drill bit, drill these six holes for the three blades.

Detach the hub from the motor shaft. With our motor, we removed the hub by holding the end of the shaft firmly with pliers and turning the hub clockwise. This hub unscrews clockwise, counter to the usual direction, which is why the blades turn counterclockwise.

Using a compass and protractor, make a template of the hub on a piece of paper. Then mark three holes, each of which is 2 3/8" from the center of the circle, 120 degrees apart, equidistant from each other.

Place this template over the hub and use a metal punch or awl to punch a starter hole through the paper and onto the hub at each hole.

Drill the holes with the 7/32" drill bit, then tap them with the 1/4" tap.

Attach the blades to the hub using 1/4" bolts, running them through the holes closest to the ends of the blades. At this point, the three outer holes on the hub have not been drilled.

Measure the distances between the tips of each blade, and adjust them so that they are all equidistant. Then mark and punch starter holes for the three outer holes on the hub through the empty holes in each blade.

Label the blades and hub so that you can match which blade goes where.

Remove the blades, and drill and tap the three outer holes on the hub.

Position each blade in its place on the hub, so that all the holes line up. Using the 1/4" bolts and washers, bolt the blades back onto the hub. For the inner three holes, use two washers per bolt, one on each side of the blade. For the outer holes, just use one washer next to the head of the bolt. Tighten.

I hope you find these instructions for building a wind power generator helpful. If you need more detailed instructions with diagrams showing each step, or are looking for a dummies guide, go to http://www.mysolarsecret.com/how-to-build-a-wind-turbine.htm

Assemble the Generator

Drill a 5/32" hole in the tubing about 5 inches from the front end of the tube, opposite the tail holes end, on any side. Place the bridge rectifier over the hole, and screw it to the tubing using a #10 sheet metal screw.

Using hose clamps, mount the motor on the end opposite the tail. Do not tighten the clamps, because you will make a balance adjustment later.

Crimp spade connectors onto the black and red wires from the motor, and connect them to the two AC voltages in terminals on the bridge rectifier, L1 and L2. Insulate connections with heat-shrink tubing or electrical tape.

Attach the tail.

Re-attach the blade assembly on the motor.

Now attach the tower mount. Using a pipe wrench, screw the nipple tightly into the floor flange. Clamp the nibble in a vice so the floor flange faces up and is level.

Set the generator on the flange/nipple and balance it by adjusting the position of the motor, then tighten the hose clamps down. Mark spots in the square tubing that match up with the flange holes.

Drill these two holes using a 5/32" drill bit.

Attach the square tubing to the floor flange with two sheet metal screws.

Secure the Tower Base

Dig a round hole about 1 foot in diameter and 2 feet deep.

Feed the 6" x 1 1/4" steel pipe nipple through the horizontal part of the 1 1/2" steel pipe T.

Screw the pipe elbows onto each end of the nipple, one on either side of the T, so that they both point in the same direction.

Screw the two 2' x 1 1/4" pipe nipples into the free ends of the elbows.

Set this hinged base assembly in the hole, so that the T just clears the ground. Dig around, adjust, and position things so that the 2" nipples point straight down and the horizontal part of the T is perfectly level.

With the base properly positioned, mix some concrete and pour it into the hole.

Erect the Tower

Drill a large hole about 1 foot from the bottom of the 10' - 30' pipe, for the copper wires to exit.

Screw the pipe into the vertical part of the base's hinged T.

Make four strong, flexible rings out of guy wire, about 5 inches in diameter. For each ring, loop the wire around several turns, and twist it closed.

Place the 1 1/2" U-bolt around the pipe. 3 feet from the top of the pipe. Thread the four wire loops around the u-bolt, and space them evenly around the pipe. Then tighten the nuts of the U-bolt.

Secure a guy wire to each of the loops on the U-bolt. Also loop the ropes (safety ropes) through loops on opposite sides of the pole.

Position the four stakes, spacing them evenly apart at a distance away from the base that's at least 50% of the tower's height. For our 15-foot-tall pole, we positioned the stakes 12 feet away from the base. Then drive the stakes firmly into the ground, slightly angling them away from the base. Or, for greater strength and permanence, dig holes 2 feet into the ground, and set the stakes in concrete.

Wire a turnbuckle to each stake, using several strands of guy wire.

Raise the pole up and tie each of the safety ropes to something solid, like a truck or building (this is where having another person helps). Attach the guy wires to the turnbuckles.

Hold the pole straight upright, and tighten all turnbuckles to ensure a secure fit.

Mark the front turnbuckle for future reference, so you know how far you need to screw it back in when you're re-raising the pole.

Wire and Mount the Generator

Release the front guy wire and lower the pole to the ground.

Feed two lengths of #8 wire, red and black, down through the pole and out through the hole in the bottom of the pipe. Then wrap the bottom ends of the two wires together to create a closed circuit. This is a safety precaution: it puts a load on the wind generator to prevent it from spinning around fast while you're working on it.

Slide the generator assembly over the top of the pole.

Pull the pole wires up through the mount, strip the ends, and crimp them into spade connectors. Plug the red wire into the DC+ terminal of the spade connector and the black wire into the DC- terminal. Insulate connections with heat-shrink tubing or electrical tape.

Raise the pole by pulling the front guy wire into place, and tighten the turnbuckle to the mark made earlier.

Unwrap the ends of the wires and wire up your system as shown in the diagram above. Connect a regulator, an ammeter, a fuse, and a stop switch on the positive line coming from the generator between the generator and the battery bank. Then hook up the battery bank and you're done!

I hope you find these instructions for building a wind power generator helpful. If you need more detailed instructions with diagrams showing each step, or are looking for a dummies guide, go to http://www.mysolarsecret.com/how-to-build-a-wind-turbine.htm

 

Technorati Tags: battery bank, charge controller, homemade wind generator, storage batteries, vertical wind turbine, vertical wind turbine design, wind turbine design

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One Response

1. 
   JoEEy Says:
   June 1st, 2009 at 10:38 pm

   i got this idea to build a mini hydro ‘kind’ of generator. i want to use the dynamo from the wind mill and attach it to the water tank. the flow of water will turn the generator. will this work? If anyone knows please reply to this comment, thanks!

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