This is a spin-off from Jim's XL Built topic.
Answering Gil's question in the other topic, the instrument I am talking about is called a "wood bar dyno". From what I remember, it was developed by some French guy back in the late 1800's, and I believe is considered valid. Several Eaglers have used it to check their engine performance.
A spreadsheet used to be on the old Yahoo EaglersNests site, but I was not able to find it just now. I found one version of it on my computer, and tried to attached it to this post, but it won't allow a xls file.
Basically, the technique uses a wood bar of a specific length with a square cross-section, with sides of that square 1/15th of the length. In the middle is a wider section to allow the bar to bolt to the prop hub.
Here is a print-out of one spreadsheet that I used:
| Wood Bar Dynamometer | | | | |
| | | | | |
| | | | | |
| test club is square cross section, width = length / 15 | | | |
| HP = 0.0532 x (dia/450)^5 x (rpm/1000)^3 | | | |
| | | | | |
| pick length(in) | calc length(mm) | calc width(mm) | calc width(in) | @ RPM | calc HP |
| | | | | |
| 28.00 | 711.20 | 47.41 | 1.87 | 2000 | 4.20 |
| | | | 2250 | 5.98 |
| | | | 2500 | 8.20 |
| | | | 2750 | 10.91 |
| | | | 3000 | 14.16 |
| | | | 3100 | 15.63 |
| | | | 3200 | 17.19 |
| | | | 3300 | 18.85 |
| | | | 3400 | 20.62 |
| | | | 3500 | 22.49 |
| | | | 3600 | 24.47 |
| | | | | |
| | | | | |
| 30.00 | 762.00 | 50.80 | 2.00 | 2000 | 5.93 |
| | | | 2250 | 8.44 |
| | | | 2500 | 11.57 |
| | | | 2750 | 15.40 |
| | | | 3000 | 20.00 |
| | | | 3200 | 24.27 |
| | | | 3300 | 26.62 |
| | | | 3400 | 29.11 |
| | | | 3500 | 31.76 |
| | | | 3600 | 34.56 |
| | | | | |
| | | | | |
| 32.00 | 812.80 | 54.19 | 2.13 | 2000 | 8.18 |
| | | | 2250 | 11.65 |
| | | | 2500 | 15.98 |
| | | | 2750 | 21.27 |
| | | | 3000 | 27.61 |
| | | | 3100 | 30.47 |
| | | | 3200 | 33.51 |
| | | | 3300 | 36.75 |
| | | | 3400 | 40.20 |
| | | | 3500 | 43.85 |
| | | | 3600 | 47.72 |
| | | | | |
| | | | | |
| 34.00 | 863.60 | 57.57 | 2.27 | 2000 | 11.08 |
| | | | 2250 | 15.77 |
| | | | 2500 | 21.64 |
| | | | 2750 | 28.80 |
| | | | 3000 | 37.39 |
| | | | 3100 | 41.26 |
| | | | 3200 | 45.38 |
| | | | 3300 | 49.77 |
| | | | 3400 | 54.43 |
| | | | 3500 | 59.38 |
| | | | 3600 | 64.61 |
| | | | | |
| | | | | |
| 36.00 | 914.40 | 60.96 | 2.40 | 2000 | 14.74 |
| | | | 2250 | 20.99 |
| | | | 2500 | 28.80 |
| | | | 2750 | 38.33 |
| | | | 3000 | 49.76 |
| | | | 3100 | 54.91 |
| | | | 3200 | 60.39 |
| | | | 3300 | 66.23 |
| | | | 3400 | 72.44 |
| | | | 3500 | 79.02 |
| | | | 3600 | 85.99 |
| | | | | |
| | | | | |
| 38.00 | 965.20 | 64.35 | 2.53 | 2000 | 19.32 |
| | | | 2250 | 27.51 |
| | | | 2500 | 37.74 |
| | | | 2750 | 50.23 |
| | | | 3000 | 65.21 |
| | | | 3100 | 71.95 |
| | | | 3200 | 79.14 |
| | | | 3300 | 86.79 |
| | | | 3400 | 94.92 |
| | | | 3500 | 103.55 |
| | | | 3600 | 112.68 |
If the sheet shows above - - - - we used a 30 inch bar, and our engine, at full throttle, spun it to 3400 rpm, resulting in about 29 hp.
This is only one point. If you want to generate a dyno curve showing max hp at every rpm, you will need a series of bars of different lengths. Then, each bar is run on the engine at full throttle. Each rpm/hp point can then be put on a chart, and the dots connected, which will give a crude dyno curve for the engine. I am sure that air temp, humidity, pressure etc. will alter the results, but I don't know of any correction factors for that. This technique will give some validity to hp claims, but won't produce laboratory quality results.
Hope that helps.
Tom H
