2014-2020 Formula One 1.6l V6 turbo engine formula

All that has to do with the power train, gearbox, clutch, fuels and lubricants, etc. Generally the mechanical side of Formula One.
johnny comelately
johnny comelately
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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How does 47.6 MJ/kg sound for the fuel?

johnny comelately
johnny comelately
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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godlameroso wrote:
13 Mar 2018, 00:15
johnny comelately wrote:
13 Mar 2018, 00:06
godlameroso wrote:
12 Mar 2018, 22:27


~8.5 seconds for the 400m

PS Sochi has a very nice run up to turn 2, way over 400m.

In Bahrain the run from the starting line to the speed trap is exactly 400 m Bottas did a 8.6 @ 155 mph or 250kph, but his 60' is terrible almost 2 seconds.
Thank you for that, it verifies the times
when did Miami go metric ? :)
The 60 foot time is a shocker.
South American people are very familiar with metric, but there's also nothing wrong with Sumerian 12.
I never realised that about Sumeria and the base 60 we still use today!

63l8qrrfy6
63l8qrrfy6
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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I had a go at calculating power from onboard acceleration - more of a proof of concept rather than an attempt to work out exact power.

I started off with Seb's Singapore pole lap from last year (https://www.youtube.com/watch?v=xPXfr3f0veI) and used http://www.watchframebyframe.com to extract engine and car speed versus time. Interestingly this website would not work for official F1 videos (apparently FIA is not happy with people analyzing on board videos frame by frame). Only the first straight was analyzed as I can't be arsed to go through the whole lap frame by frame.
Unfortunately the video is only 25 FPS so the resolution (as in sampling frequency) is very poor (and so is that digital speedo), as a result I had to skip ahead frames until engine speed changed, which means that the time interval is not constant and samples are shite. Normally you'd probably need good data every hundreth of a second to be able to come up with reasonable numbers.

From speed vs time I calculated acceleration and then inertia load assuming a car mass of 628 kg.
Gear ratio was calculated from engine speed vs car speed (wheel radius =335 mm). I got a ratio of 5.84 for the 6th gear, 5.16 for the 7th and 4.55 for the 8th gear. These are pretty close to ratios calculated here forum/viewtopic.php?f=4&t=26230.

Drag was calculated using the average car speed over the time interval. (Cd=1 and frontal area of 1.442 m^2, someone posted these a while ago).

Wheel torque was then calculated by multiplying the sum of drag and inertia loads by the wheel radius. Dividing wheel torque by gear ratio gives engine torque. Multiplying by engine speed gave engine power. No transmission losses nor rolling resistance considered.

Image
Image
Image
Image

Greyed out rows mean funny data due to gearshifts. Last data point is also dodgy - I think it includes braking at end of straight.
Last edited by 63l8qrrfy6 on 13 Mar 2018, 03:00, edited 1 time in total.

johnny comelately
johnny comelately
110
Joined: 10 Apr 2015, 00:55
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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Mudflap wrote:
13 Mar 2018, 01:56
I had a go at calculating power from onboard acceleration - more of a proof of concept rather than an attempt to work out exact power.

I started off with Seb's Singapore pole lap from last year (https://www.youtube.com/watch?v=xPXfr3f0veI) and used http://www.watchframebyframe.com to extract engine and car speed versus time. Interestingly this website would not work for official F1 videos (apparently FIA is not happy with people analyzing on board videos frame by frame). Only the first straight was analyzed as I can't be arsed to through the whole lap frame by frame.
Unfortunately the video is only 25 FPS so the resolution (as in sampling frequency) is very poor (and so is that digital speedo), as a result I had to skip ahead frames until engine speed changed, which means that the time interval is not constant and samples are shite. Normally you'd probably need good data every hundreth of a second to be able to come up with reasonable numbers.

From speed vs time I calculated acceleration and then inertia load assuming a car mass of 628 kg.
Gear ratio was calculated from engine speed vs car speed (wheel radius =335 mm). I got a ratio of 5.84 for the 6th gear, 5.16 for the 7th and 4.55 for the 8th gear. These are pretty close to ratios calculated here forum/viewtopic.php?f=4&t=26230.

Drag was calculated using the average car speed over the time interval. (Cd=1 and frontal area of 1.442 m^2, someone posted these a while ago).

Wheel torque was then calculated by multiplying the sum of drag and inertia loads by the wheel radius. Dividing wheel torque by gear ratio gives engine torque. Multiplying by engine speed gave engine power. No transmission losses nor rolling resistance considered.

https://i.imgur.com/eYoniGM.png
https://i.imgur.com/mEGtFTd.png
https://i.imgur.com/5pP7wJ1.png
https://i.imgur.com/BOJNcH1.png

Greyed out rows mean funny data due to gearshifts. Last data point is also dodgy - I think it includes braking at end of straight.
Is the car weight right?
And it does include electrical deployment?
Very detailed, lot of effort, was it a Freudian slip with "arsed"? :)
Last edited by johnny comelately on 13 Mar 2018, 02:08, edited 1 time in total.

63l8qrrfy6
63l8qrrfy6
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Joined: 17 Feb 2016, 21:36

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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johnny comelately wrote:
13 Mar 2018, 02:00
Is the car weight right?
Very detailed, lot of effort, was it a Freudian slip with "arsed"? :)
It's car mass. Weight is technically mass x g and has units of newtons.
See, I'm always anal lol.

johnny comelately
johnny comelately
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Joined: 10 Apr 2015, 00:55
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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Mudflap wrote:
13 Mar 2018, 02:07
johnny comelately wrote:
13 Mar 2018, 02:00
Is the car weight right?
Very detailed, lot of effort, was it a Freudian slip with "arsed"? :)
It's car mass. Weight is technically mass x g and has units of newtons.
See, I'm always anal lol.
Yes OK, but you have it as Kg and I was just wondering if it is right with FIA minimum being 733kg dry +driver (no fatty la la's) +105kg fuel ??
I only ask to make sure calc will give us a true as possible figure.
My end result question is Lambda

63l8qrrfy6
63l8qrrfy6
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Joined: 17 Feb 2016, 21:36

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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I don't know if that mass is correct, just used the first number I could find, think amho posted it. Was't trying to get accurate numbers, just wanted to show how it works. You can put in any numbers you want.

What does lambda have to do with anything ?

johnny comelately
johnny comelately
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Joined: 10 Apr 2015, 00:55
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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Mudflap wrote:
13 Mar 2018, 02:18
I don't know if that mass is correct, just used the first number I could find, think amho posted it. Was't trying to get accurate numbers, just wanted to show how it works. You can put in any numbers you want.

What does lambda have to do with anything ?
Everything, thats where all this started.
seeing how lean they were and produced X power without knocking and destruction and how they do it.
The weight is was looking at was start weight and I was using that for launch calcs.
whereas yours is during the race, lap ??

63l8qrrfy6
63l8qrrfy6
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Joined: 17 Feb 2016, 21:36

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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johnny comelately wrote:
13 Mar 2018, 02:24
Mudflap wrote:
13 Mar 2018, 02:18
I don't know if that mass is correct, just used the first number I could find, think amho posted it. Was't trying to get accurate numbers, just wanted to show how it works. You can put in any numbers you want.

What does lambda have to do with anything ?
Everything, thats where all this started.
seeing how lean they were and produced X power without knocking and destruction and how they do it.
The weight is was looking at was start weight and I was using that for launch calcs.
whereas yours is during the race, lap ??
It's pointless to look at launch since the car is traction limited for most of it. It won't tell you anything at all.

johnny comelately
johnny comelately
110
Joined: 10 Apr 2015, 00:55
Location: Australia

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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Mudflap wrote:
13 Mar 2018, 02:28
johnny comelately wrote:
13 Mar 2018, 02:24
Mudflap wrote:
13 Mar 2018, 02:18
I don't know if that mass is correct, just used the first number I could find, think amho posted it. Was't trying to get accurate numbers, just wanted to show how it works. You can put in any numbers you want.

What does lambda have to do with anything ?
Everything, thats where all this started.
seeing how lean they were and produced X power without knocking and destruction and how they do it.
The weight is was looking at was start weight and I was using that for launch calcs.
whereas yours is during the race, lap ??
It's pointless to look at launch since the car is traction limited for most of it. It won't tell you anything at all.
Mudflap, have a quick look at "henry"'s posts on page 600

johnny comelately
johnny comelately
110
Joined: 10 Apr 2015, 00:55
Location: Australia

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

Post

Mudflap wrote:
13 Mar 2018, 01:56
I had a go at calculating power from onboard acceleration - more of a proof of concept rather than an attempt to work out exact power.

I started off with Seb's Singapore pole lap from last year (https://www.youtube.com/watch?v=xPXfr3f0veI) and used http://www.watchframebyframe.com to extract engine and car speed versus time. Interestingly this website would not work for official F1 videos (apparently FIA is not happy with people analyzing on board videos frame by frame). Only the first straight was analyzed as I can't be arsed to go through the whole lap frame by frame.
Unfortunately the video is only 25 FPS so the resolution (as in sampling frequency) is very poor (and so is that digital speedo), as a result I had to skip ahead frames until engine speed changed, which means that the time interval is not constant and samples are shite. Normally you'd probably need good data every hundreth of a second to be able to come up with reasonable numbers.

From speed vs time I calculated acceleration and then inertia load assuming a car mass of 628 kg.
Gear ratio was calculated from engine speed vs car speed (wheel radius =335 mm). I got a ratio of 5.84 for the 6th gear, 5.16 for the 7th and 4.55 for the 8th gear. These are pretty close to ratios calculated here forum/viewtopic.php?f=4&t=26230.

Drag was calculated using the average car speed over the time interval. (Cd=1 and frontal area of 1.442 m^2, someone posted these a while ago).

Wheel torque was then calculated by multiplying the sum of drag and inertia loads by the wheel radius. Dividing wheel torque by gear ratio gives engine torque. Multiplying by engine speed gave engine power. No transmission losses nor rolling resistance considered.

https://i.imgur.com/eYoniGM.png
https://i.imgur.com/mEGtFTd.png
https://i.imgur.com/5pP7wJ1.png
https://i.imgur.com/BOJNcH1.png

Greyed out rows mean funny data due to gearshifts. Last data point is also dodgy - I think it includes braking at end of straight.
So, the lowest non-grey hp figures are about it 640 to 670 hp (without electric shove) ??

63l8qrrfy6
63l8qrrfy6
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Joined: 17 Feb 2016, 21:36

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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What about henry's post? This measures total PU power, doesn't care of it's electric or there's hamsters turning a wheel.

johnny comelately
johnny comelately
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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Mudflap wrote:
13 Mar 2018, 12:04
What about henry's post? This measures total PU power, doesn't care of it's electric or there's hamsters turning a wheel.
re Henry page 600: FIA traction rules.
and keeping it in context, launch is a launch is a launch the idea being to get away the quickest possible; so no electric shove just horsepower and optimised tyre spin and FIA weight distribution it is giving me an indicative power.
With your figures adjusted by a bit for extra 180 kg (640 - 670hp) of mass weight (by the time honoured method of that looks about right :wink: ) it is looking around 760 to 800 hp ; what do you think?

johnny comelately
johnny comelately
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Joined: 10 Apr 2015, 00:55
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Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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johnny comelately wrote:
13 Mar 2018, 12:35
Mudflap wrote:
13 Mar 2018, 12:04
What about henry's post? This measures total PU power, doesn't care of it's electric or there's hamsters turning a wheel.
re Henry page 600: FIA traction rules.
and keeping it in context, launch is a launch is a launch the idea being to get away the quickest possible; so no electric shove just horsepower and optimised tyre spin and FIA weight distribution it is giving me an indicative power.
With your figures adjusted by a bit for extra 180 kg (640 - 670hp) of mass weight (by the time honoured method of that looks about right :wink: ) it is looking around 760 to 800 hp ; what do you think?
I know you do not agree with using ET for power calcs but i am looking for corroboration with other methods to determine power , align that with fuel and voila: lambda.
this will help explain the combustion management which to me is a complete mystery

63l8qrrfy6
63l8qrrfy6
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Joined: 17 Feb 2016, 21:36

Re: 2014-2020 Formula One 1.6l V6 turbo engine formula

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johnny comelately wrote:
13 Mar 2018, 12:35
Mudflap wrote:
13 Mar 2018, 12:04
What about henry's post? This measures total PU power, doesn't care of it's electric or there's hamsters turning a wheel.
re Henry page 600: FIA traction rules.
and keeping it in context, launch is a launch is a launch the idea being to get away the quickest possible; so no electric shove just horsepower and optimised tyre spin and FIA weight distribution it is giving me an indicative power.
With your figures adjusted by a bit for extra 180 kg (640 - 670hp) of mass weight (by the time honoured method of that looks about right :wink: ) it is looking around 760 to 800 hp ; what do you think?
I think you can't understand very simple things that have already been explained to you several times.