• Required reading for all forum users!!!

    Welcome!
    Register to access the full functionality of the GSResources forum. Until you register and activate your account you will not have full forum access, nor will you be able to post or reply to messages.

    A note to new registrants...
    All new forum registrations must be activated via email before you have full access to the forum.

    A Special Note about Email accounts!
    DO NOT SIGN UP USING hotmail, outlook, gmx, sbcglobal, att, bellsouth or email.com. They delete our forum signup emails.

    A note to old forum members...
    I receive numerous requests from people who can no longer log in because their accounts were deleted. As mentioned in the forum FAQ, user accounts are deleted if you haven't logged in for the past 6 months. If you can't log in, then create a new forum account. If you don't get an error message, then check your email account for an activation message. If you get a message stating that the email address is already in use, then your account still exists so follow the instructions in the forum FAQ for resetting your password.

    Have you forgotten your password or have a new email address? Then read the forum FAQ for details on how to reset it.

    Any email requests for "can't log in anymore" problems or "lost my password" problems will be deleted. Read the forum FAQ and follow the instructions there - that's what we have one for...

  • Returning Visitors

    If you are a returning visitor who never received your confirmation email, then odds are your email provider is blockinig emails from our server. The only thing that can be done to get around this is you will have to try creating another forum account using an email address from another domain.

    If you are a returning visitor to the forum and can't log in using your old forum name and password but used to be able to then chances are your account is deleted. Purges of the databases are done regularly. You will have to create a new forum account and you should be all set.

Rear wheel horsepower

Just to side track for a second;

Typical drive line loss is 15% with a driveshaft.
Typical loss with chain and sprockets is 5-10%.
Click to expand...

All good and well, but this assumes a new chain and sprocket set with no wear, as the chain wears, it will consume more power, to the point where a very badly worn chain and sprockets will have a greater loss than the shaft drive.
Seeing as a chain starts wearing from the time it is first installed, it would be logical that the rear wheel HP is decreacing steadily with every ride.

Just thought I would mention it....ok back to topic.....
 
Flyboy said:
Just to side track for a second;



All good and well, but this assumes a new chain and sprocket set with no wear, as the chain wears, it will consume more power, to the point where a very badly worn chain and sprockets will have a greater loss than the shaft drive.
Seeing as a chain starts wearing from the time it is first installed, it would be logical that the rear wheel HP is decreacing steadily with every ride.

Just thought I would mention it....ok back to topic.....
Click to expand...

I would agree that any drive shaft will probably tend to improve efficency as it wears (bearings loosen) and any chain will eventually start to lose efficency if it wears or is in need of lubrication.

But, assuming "normal" (or typical) wear patterns and the fact that the drive shaft has about twice the losses of a chain (nominally) it is doubtful they would ever cross over (chain worse than drive shaft) unless we are talking bout a chain that gets very hot from just ridding around.
 
This info seems about right based on what I've read over the years...

GS1100E - rated hp = 108, measured rear wheel hp = 94

GS1100G - rated hp = 94(?), measured rear wheel hp = 72

Where the shaft drive system burns up hp is when the power takes a 90 degree turn - once in the secondary reduction gears, and then again at the final drive. Each of those turns consumes something like 2.5% of the available power which makes a total of roughly 5% extra power consumption beyond a chain drive system.

Even with that extra power consumption built into the system it seems unlikely that the 1100G engine makes 94 hp at the crank. If the rwhp = 72, then the crank hp is most likely in the mid/upper 80's.
 
If the loss is 15% in the shaft drive setup (no consensus), well then 72hp divided by .85=84.7 hp at crank.
At any rate, I was trying to determine the general health of my engine and at 72 rwhp, it seems to at least be not particularly sickly so I guess I can justify continuing to add little things like a dynojet, rustless tank, coil relay mod etc. The Bandit search is stalled.
 
Last edited:
I provided a summary of what I did in my head previously so that most of the steps are clear to even the most casual reader. As I noted , I did guess as some of my previous statments but was clear and explict about those assumptions. The rest that I was doing in my head is detailed here.

http://www.thegsresources.com/_forum/showthread.php?p=1330216#post1330216


And to Graham,

If you review the thread above you will note that I did not deal with variations due to load , RPM , different gear ratios or tire sizes. While the analysis could be extended to account for the second order effects of those parameters, the primary reason for not including them is the foundational law of physics "Conservation of Energy".

Since under this principle

A.) energy can be neither lost or created

and

B.) Power is time rate of change of energy

http://hyperphysics.phy-astr.gsu.edu/hbase/work.html

and

C.) since differentiation (time rate of change) is a linear operation, conservation of power also applies; so total power is also conserved.

Therefore we can conclude total power is invariant (with losses excepted)under power conversion operations due to mechanical advantage system (e.g. lever arms and gear ratios).I hope that makes it clearer why your previous assessment was fundamentally flawed. You will note that is teh reason that those parameters are absent in the loss equation I used.

Further, so it is made painfully clear to you, what I described at the other link is not an "opinion", it is detailed and rational analysis of fact and assumptions. In stark contrast, your statements which have no such basis and are shown in fact to be fallacious do in fact qualify as an opinion as there is no other polite way of characterizing it.

Merry Chrismas Everybody, it is time to enjoy the season
 
Last edited:
posplayr said:
I provided a summary of what I did in my head previously so that most of the steps are clear to even the most casual reader. As I noted , I did guess as some of my previous statments but was clear and explict about those assumptions. The rest that I was doing in my head is detailed here.

http://www.thegsresources.com/_forum/showthread.php?p=1330216#post1330216


And to Graham,

If you review the thread above you will note that I did not deal with variations due to load , RPM , different gear ratios or tire sizes. While the analysis could be extended to account for the second order effects of those parameters, the primary reason for not including them is the foundational law of physics "Conservation of Energy".

Since under this principle

A.) energy can be neither lost or created

and

B.) Power is time rate of change of energy

http://hyperphysics.phy-astr.gsu.edu/hbase/work.html

and

C.) since differentiation (time rate of change) is a linear operation, conservation of power also applies; so total power is also conserved.

Therefore we can conclude total power is invariant (with losses excepted)under power conversion operations due to mechanical advantage system (e.g. lever arms and gear ratios).I hope that makes it clearer why your previous assessment was fundamentally flawed. You will note that is teh reason that those parameters are absent in the loss equation I used.

Further, so it is made painfully clear to you, what I described at the other link is not an "opinion", it is detailed and rational analysis of fact and assumptions. In stark contrast, your statements which have no such basis and are shown in fact to be fallacious do in fact qualify as an opinion as there is no other polite way of characterizing it.

Merry Chrismas Everybody, it is time to enjoy the season
Click to expand...

So you are using horsepower figures from 2 different motorcycles of the same model, 30years apart for your formula? Are you trying to tell everyone that horsepower does not change on a motorcycle over 30years or from cycle to cycle of the same model? I will not believe in your formula because it assumes too much and you have no hands-on testing involved. Your math does not add up to a hill of beans.
And merry Christmas to you.
 
Last edited:
I would like to point out that while there are plenty of variables, dyno progams take into account things like tire size and gear ratio, besides all a dyno does is measure how much work is done over a period of time.

The people that can put their bikes on a dyno are most likely the people with well taken care of machines in excellent running condition, so these arguments about 30 year old bikes is pointless.

I kinda think that your just fighting the fact that chain is more efficient than shaft.
 
whiterabbitt said:
I would like to point out that while there are plenty of variables, dyno progams take into account things like tire size and gear ratio, besides all a dyno does is measure how much work is done over a period of time.

The people that can put their bikes on a dyno are most likely the people with well taken care of machines in excellent running condition, so these arguments about 30 year old bikes is pointless.

I kinda think that your just fighting the fact that chain is more efficient than shaft.
Click to expand...

It really don't matter to me. Just too much assuming involved.
 
It is not just the efficiency that a chain has over a shaft setup, but there is a huge weight saving to be considered as well. I believe that Suzuki upped the sizes of their motors by approx 100cc to account for the inefficiency, power loss of the convenience of a shaft drive. Roughly speaking the 550 to 650, the 750 to 850 and the 1000 to 1100.
 
This is the spec sheet for my 1986 gsxr1100g

Max Power

125 hp @ 8500 rpm* ( rear tyre 115.2 hp @ 9000 rpm )
 
tas850g said:
This is the spec sheet for my 1986 gsxr1100g

Max Power

125 hp @ 8500 rpm* ( rear tyre 115.2 hp @ 9000 rpm )
Click to expand...

I have two brochures for the GSXR1100g saying 130 hp.

Is the 115.2 a dyno result? Source?

11.4%=1-115.2/130 is still a little low.
 
I am probably asking a stupid question but how does all this information help someone like me who is not a racer or that intent on performance? I ride my bike to have fun and as a means to get back and forth to work?
 
I'm not a racer either but since I had a shot at a free dyno, I just wanted to evaluate the health of my motor before I invest in more work on it (secretly I want a G instead of a GL). I wanted to see if the 72 rwhp was in the ballpark of what might be expected. Jim M
 
posplayr said:
I have two brochures for the GSXR1100g saying 130 hp.

Is the 115.2 a dyno result? Source?

11.4%=1-115.2/130 is still a little low.
Click to expand...

Actually 11.4% loss is a little high.

Horsepower loss from shaft 11.25% average.
Horsepower loss from chain 6.75% average.

Source
http://www.motorcyclespecs.co.za/

Honda VF 1100C Magna V65
1985 shaft
116 hp @ 7500 rpm (rear tire 100 hp 72.9 kW @ 9500 rpm)
14% loss

Yamaha VMX 1200 V-Max
1991-94 shaft
102 hp 74.4 kW @ 8000 rpm (rear tire 97.88 @ 7700 rpm)
4% loss

Suzuki VS 1400GL Intruder
1987 shaft
72 hp 52.5 kW @ 4800 rpm (rear tire 58.3 hp @ 5000 rpm)
19% loss

Suzuki VX 800
1990 shaft
61.2 hp 44.6 kW @ 6800rpm (rear tire 56.2 hp @ 7500 rpm)
8% loss

Suzuki GSX-R 1100G
1986 chain
125 hp @ 8500 rpm (rear tire 115.2 hp @ 9000 rpm)
8% loss

Suzuki GSF 1200S Bandit
1996-97 chain
98 hp 72 kW @ 9500 rpm (rear tire 98.hp @ 8400 rpm)
0% loss

Kawasaki GPX 750R
1990 chain
106 hp 77.3 kW @ 10500 rpm (rear tire 90.4 hp @ 10200 rpm)
15% loss

Suzuki GSX 1100EE (GS 1150E)
1984 chain
124 hp @ 8500 rpm (rear tire 119 hp @ 8500 rpm)
4% loss
 
All depends on the manufacturer and how "liberal" they were in the numbers. also what the temperature, altitude, humidiity and such when the dyno is running. Also 3 different dyno can run 3 different numbers. Depends on how good the dyno is. I have had my buell dyno'd one day, went somewhere else the next and numbers were totally different. Just like ool air air makes most bikes tun better tham hot dry air.
 
You must log in or register to reply here.
Back
Top