QUICK VERSION:To cut to the chase I've calculated that between June6 at 3pm, and June 14 at 9am in Richmond Sydney you would have expected to see a real world rear wheel difference of 7% of your Maximum bike power, or for me close enough to 7kw (10hp) difference between riding your bike at those times.
For a zx10r with 150kw this equates to 10.5kw.
What these figures represent is how much a correctly configured dyno/tuner would have to adjust the figures by under these conditions to find the SAE standard power reading, or, in reverse, how much extra power the bikes make because of the cold conditions.
Keep in mind what I've calculated is the difference between a moderate environment(actually turned out to be a "standard" environment as the correction factor is 1) and a cool environment.
The difference between a HOT environment (35degC assuming 1012hpa)and a cool environment calculates to a result of 14kw difference on my bike, 21kw on 150kW a zx10r!
Now completed and I'm pretty happy with my method and results, but I very likely made an error or fallacy so open to criticism etc.
LONG VERSION:Revisiting this, the only actual evidence was from Glen saying the difference was around 10hp (7.5kw) on ZX10s between "cooler" and "bloody hot" temps.
I don't understand the "better response but that doesn't mean more power through the rev range" point of view, to me "response" = power.
It's annoying me enough that I've decided to work it out for myself.
I'll utilise the updated dyno correction factor calculation SAE J1349
Usually it's used to take variations in
observed power due to environmental air temp and air pressure (on a dyno) and convert them into the "normalised" conditions by returning a factor to multiply with the observed power.
As discussed here:
http://wahiduddin.net/calc/cf.htmI'll be using it in reverse to take the real world rear wheel power of my bike, and then calculating in reverse to the boost in power from that due to colder denser air.
I'll use excel to apply the calculations to 2 different local real environment conditions from the day time last month in Richmond Sydney which is the closest weather station to me with air temp and pressure readings.
http://www.bom.gov.au/climate/dwo/201006/html/IDCJDW2119.201006.shtmlBy working out the correction factors for 2 opposite weather conditions
(9am June14 - 5.6degC 1035hpa)
(3pm June6 - 19.8degC 1012hpa)
in the same local place within 8 days of each other last month I'm hoping to give a realistic picture of what numbers reflect the increase in power we feel in normal riding conditions this time of year.
Attached is a screen shot of my spreadsheet and the spreadsheet is attached.
NOTE: Pv is "saturation vapour pressure" dependent on temp as calculated here:
http://wahiduddin.net/calc/density_altitude.htm which is subtracted from the air pressure and used in the formula (Pd)
I would suggest that if a bike runs better when its cold, and its a carbie bike - then the state of tune is probably pretty good.......if the bike ran *worse* in cold temps, then yes, the tune could be out of whack....
