Tapio wrote:Corvus wrote:http://www.thumperclub.com/smf/index.php?topic=7132.0
The dyno curve sheet, second post on link above, illustrates clearly what I'm saying, I believe.
The three power curves portray reality as does the top (red) torque curve. But the the two lower torque curves (blue and green) are abstract, in my view.
Sorry, but I really don’t understand. Here’s how I see that dyno sheet:
First, you measure the torque at the rear wheel. This is the only thing that the dyno actually measures. This gives the green torque curve.
Then, using a correction factor to compensate for losses in FD and prop shaft hooke joints you get torque at gearbox output. This is the blue torque line.
Again, using another correction factor, you get torque at the crank. This is the red torque line.
From these, the corresponding power curves are calculated.
So, the only true curve in that sheet is the green torque curve. The rest is just math.
//T
Hi tapio, hope you are well. You probably won't be surprised to find that I disagree, with respect. The xbr500 graph is useful for the purpose of my point ,trying to prove the abstract nature of the torque curves, because it differs from a lot of others in that it prints out three sets of curve ( supposedly) representing crank, gearbox and rear wheel figures.
Here's how I see the dyno sheet:-
Tapio: "First, you measure the torque at the rear wheel. This is the only thing that the dyno actually measures. This gives the green torque curve."
I thought we'd seen that it is possible to measure power directly, without necessarily measuring torque, and that some dyno's are equipped to do this. But, anyway, this is not relevant to my point.
For those dynamometers that do measure rear wheel torque, the green torque curve is not it. No way. The green torque curve is abstract. It doesn't actually exist. The green power curve is real, but not the green torque curve. I think the green power curve has been produced from rear wheel torque measurements, but these values are not the ones we see on the green torque curve.
Tapio: "Then, using a correction factor to compensate for losses in FD and prop shaft hooke joints you get torque at gearbox output. This is the blue torque line."
No way. The losses are represented, real world, in the blue power curve, but not the blue torque curve.
Tapio: "Again, using another correction factor, you get torque at the crank. This is the red torque line."
Yes, I agree for the red torque curve. Because the speeds on the graph are clearly crankshaft speeds. The torque values shown here will actually have existed at the speeds shown.
Tapio: "From these, the corresponding power curves are calculated."
This is where I believe something subtle has happened. The power curve comes first. Not in what is "fealt" by the rollers, but what is actually used by the computer. It gathers information to produce a rear wheel power curve, the green one, but then a human comes along and "corrects" the torque figure to crankshaft speed. So, to be clear, that is rear wheel power with a torque curve produced from it at crankshaft speed. Clearly abstract. One of the links I posted at the beginning refers to this as "back calculating". I see that statement as confirmation that the torque curve we see is produced FROM the power curve. Not the other way around.
Tapio: "So, the only true curve in that sheet is the green torque curve. The rest is just math."
I disagree. The only true torque curve is the red one. True in that it represents reality, not in that it was directly measured.
The only torque curve, in our example, that stands up to testing with the hp formula is the red one. That's because it's the only one where the power and rpm figures represent what happened.
For the blue and green sets of curves, the power is real life but the torque doesn't fit into the hp formula because the rpm value is incorrect.
Put in the actual rpm values for the shafts concerned and you will get a very different torque value.
This is not an attack on any process or the way things are done. Just an observation at how abstract it is. It is fascinating.
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