1.8 metre diameter wind turbine blades and generator
Abstract
A 2kW 1.8 metre diameter wind turbine was designed and constructed out of carbon fibre and
generator built by converting an induction motor into a permanent magnet generator, the wind turbine
blades power and efficiency has been measured at different tip-speed-ratios, maximum efficiency at
TSR of 11.6, 30% efficiency, verifying the blade calculators accuracy. Total cost of the generator and
blades was less than AU$200
Keywords: Wind power, Permanent Magnet Generator, 2kw wind turbine
LIST OF FIGURES
Figure Page
1 40 amp car alternator rotor with magnets attached 2
2 40 amp car alternator rotor with magnets fibre glassed in place 2
3 40 amp car alternator stator with shielding 3
4 Completed conversion of the 40 amp car alternator 3
5 Completed conversion a ź hp induction motor 3
6 Wind turbine airfoil cross-sections 5
7 Turbine airfoil cross-sections bolted to frame 5
8 Positive moulds of wind turbine blades 6
9 Negative moulds of wind turbine blades 6
10 1.8 m blade set 7
11 Turbine testing 7
12 Measured TSR vs efficiency 9
13 Measured Power 10
© 2004 Warlock Engineering Pty. Ltd. All rights reserved.
http://warlock.com.au 3rd May 2004
1. Construction of the Permanent Magnet Generator
Design of a permanent magnet generator was necessary to test and characterise the
blade set, conversion of a 40 amp car alternator to a permanent magnet generator was
attempted.
Figure 1. 40 amp car alternator rotor with magnets attached
The alternators rotor was turned down on a lathe to accommodate neodymium
magnets, six magnets were carefully place on a slight angle to reduce cogging of the
generator.
Figure 2. 40 amp car alternator rotor with magnets fibre glassed in place
The magnets were fibre glassed in place with two strips of carbon fibre.
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Figure 3. 40 amp car alternator stator with shielding
Sheet metal was placed inside the stator to shield the magnetic field from aluminium,
without the sheet metal significant power was lost in the aluminium.
Figure 4. Completed conversion of the 40 amp car alternator
Power output was measured to be less than 500 watts at the designed blade rotational
speed. The generator will not produce enough power for the 1.8m diameter blades, it
is more suited to 1.0m diameter blades with a high tip-speed-ratio.
The same technique was used to convert a larger ź hp induction motor into a 8 pole /
3 phase PMG
Figure 5. Completed conversion a ź hp induction motor
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Power output was measured to be more than 2000 watts at the designed blade
rotational speed. The generator has enough power for the 1.8m diameter blades, the
generator has zero cogging, this is due to the angled magnets and the 2mm air gap
between the rotor and stator, the generator is configured for 3 phase, each phase
measuring 5.6 ohms. Output voltage is 130Vrms at 1333rmp increasing linearly with
rpm.
2. Calculating generator efficiency
given:
1. the 3 phases are isolated, and connected as 3 single phase outputs
2. each output is rectified to DC using a single phase bridge rectifier.
At 666rpm, generator voltage Vs = 65Volts,
Rs = resistance of each phase of the generator (5.6 Ohms)
Voltage across Rs = 65 - 48 = Vs = 17 Volts
V = IR
V/R = I
Current into battery = 17/5.6 = 3 amps per phase
P = VI
Power into battery = 48 x 3 = 144 watts per phase
(432 watts for all 3 phases)
P = V2/R
Power Lost = 172/5.6 = 51.6 per phase
Efficiency of generator = 144/(144+51.6) = 73.6%
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3. Design and construction of the wind turbine blades
The wind turbine blades were designed using the warlock engineering blade calculator
program, the airfoil chosen was NACA2412, two blades were designed to have a tip-
speed-ratio of 10.
Figure 6. Wind turbine airfoil cross-sections
The airfoils cross sections were cut out of 3mm aluminium sheets, the sheets were
bolted to a steel frame and aligned.
Figure 7. Wind turbine airfoil cross-sections bolted to frame
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The gaps between the airfoil sections were filled with aluminium tape, and the back of
the tape was fibre glassed in place. Wax and mould release was applied to it and two
positive moulds were made.
Figure 8. Positive moulds of wind turbine blades
The moulds were sanded down using the aluminium impressions as a guide, Wax and
mould release was applied to the positive moulds and new negative moulds were
made out of fibreglass and carbon fibre
Figure 9. Negative moulds of wind turbine blades
Detailing of the positive mould produced a perfect negative mould, this final negative
mould was waxed and mould release was applied to it. 220g CSM fibreglass with
vinyl ester resin was applied to each mould, the two mould halves were clamped
together after the resin had gelled, and the blade was removed after cure.
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Figure 10. 1.8 m blade set
The blades were sanded and carbon fibred, using an additional layer of carbon fibre
around the hub section, the blades are extremely light weight.
4. Testing the wind turbine
Wind turbine was bolted to a trailer and rpm, voltage and tsr was measured by
connecting the generator to a very high power multi-tap resistor, The turbine was
allowed to speed up to an open circuit voltage of 65v (666rpm) before the resistor
load was connected.
Figure 11. Turbine testing
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5. Measured results the wind turbine
Note: Method of testing turbine generates turbulent wind affecting efficiency,
Therefore results should be used as a guide only.
Rs is the resistance of the generator windings plus the power cable; 5.75 ohms
Rl is the resistance of the load; 6.6, 10, 15, 21.5 an 25 ohms
Power generated by the blades was calculated by dividing by the efficiency of the
generator,
Once the blades have been characterized, a new generator will be designed
Power generated by the blades are calculated by the following:
Voltage across the resistor load was measured Vl,
Vs = Vl x [(Rs + Rl) / Rl ]
Power produced by blades, and lost in generator, power cable and resistor load is
given by;
P = V2/R
P = Vs2 / (Rs+Rl)
25ohm 21.5ohm 15ohm 10ohm 6ohm
30km/h 820 766 809
40km/h 1302 1363 851 645
50km/h 1753 1676 1489 1291 1105
60km/h 2365 2098 1744 1607
Rotational speed (rpm)
25ohm 21.5ohm 15ohm 10ohm 6ohm
30km/h 208 205 300
40km/h 524 649 332 252
50km/h 950 981 1017 1008 940
60km/h 1953 2019 1837 1990
Power (watts)
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25ohm 21.5ohm 15ohm 10ohm 6ohm
30km/h 0.23 0.23 stalled
40km/h 0.24 0.30 0.15 stalled
50km/h 0.22 0.23 0.24 0.24 stalled
60km/h 0.27 0.27 0.25 0.27
Blade efficiency
25ohm 21.5ohm 15ohm 10ohm 6ohm
30km/h 278 260 275
40km/h 441 463 289 218
50km/h 595 569 506 438 375
60km/h 803 712 592 546
Tip speed (km/h)
25ohm 21.5ohm 15ohm 10ohm 6ohm
30km/h 9.2 8.7 9.2
40km/h 11.0 11.6 7.2 5.5
50km/h 11.9 11.4 10.1 8.8 7.5
60km/h 16.1 14.2 11.8 10.9
Tip speed ratio
Figure 12
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Figure 13
6. Total cost of the wind turbine
System cost (AUD)
Induction motor $15
Magnets $80
Moulds $72
Two Blades $14
Total cost $181
7. Conclusion
Design of highly efficient blades means smaller size blades for same power, Smaller
size means higher rpm and higher rpm makes a smaller and cheaper generator.
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