Franework For Discussion - F1 2011 Aero Regs

Here are our CFD links and discussions about aerodynamics, suspension, driver safety and tyres. Please stick to F1 on this forum.
Ogami musashi
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Yes - but the position of the turbulent flow relative to the ground plane is of importance - keep it higher = better.
What do you mean by this?

Nah, it was yet another ill-concieved idea that was to aid "overtaking".


It ignore the fact that the massive amount of small scale turbulence that would be present would cause load variations in the wing anyway - irregardless of any mean downwash (and that idea was optimistic IMO anyway).
I think the idea was more of letting the central zone clean so that because of low profile of the rear the zone near front wing heights would have been nearer to the standard pressure.

However the idea seems indeed optimistic.

What are the causes of small scale turbulences according to you?




I disagree - better to have an absolute barn door of a rear wing. That makes for a bigger tow (while not really disrupting the flow near the ground - the diffuser and wheels do that). Hence widen the track and ban the diffuser.
Well actually, of course if you think about putting the rear wing higher, yes that would make it...compared to same surface rear wing placed lower.
i mean, the higher the cross sectional area the wider the turbulences.
Somehow, i'm not quite sure it would work.

You're right about diffuser, but this one also help the rear wing remaining stable flowed.
But all in one i think if the ground effect are to be reintroduced the need for such a diffuser would be eliminated.

For wheels, yes you're right, unfortunately we have to cope with them (or maybe wait more electro aero dynamics to come!)

kilcoo316
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Joined: 09 Mar 2005, 16:45
Location: Kilcoo, Ireland

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Ogami musashi wrote:
Yes - but the position of the turbulent flow relative to the ground plane is of importance - keep it higher = better.
What do you mean by this?

The suction surface of any wing is much more sensitive to the freestream turbulence level than the pressure surface. Thus, to aid the front wing of the following car (say car 2)- the regulations must aim to have the turbulent wake of car 1 focused well above the front wing 1st element suction surface of car 2.


This is another point for lowering the front wings again - nearer the ground, turbulent eddies are much more quickly damped into extremely small scale turbulence which would dissipate quite quickly.

Ogami musashi wrote: I think the idea was more of letting the central zone clean so that because of low profile of the rear the zone near front wing heights would have been nearer to the standard pressure.

However the idea seems indeed optimistic.

What are the causes of small scale turbulences according to you?
They ignored the diffuser and wings combining - that will create alot of turbulence.

Also, the effect of the wing trailing vortex system on the diffuser induced upwash would be marginal at best - when considering the wing is far above the region of flow that actually matters (i.e. the air that will flow onto the front wing of car 2).


Small scale turbulence results from the Kolmogorov cascade effects. In some areas it results directly from the geometries (for instance, blade boundary layer wakes). But on F1 cars, in the highly turbulent field, it will come from the break down of larger scale turbulent structures.

Ogami musashi
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Joined: 13 Jun 2007, 22:57

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The suction surface of any wing is much more sensitive to the freestream turbulence level than the pressure surface. Thus, to aid the front wing of the following car (say car 2)- the regulations must aim to have the turbulent wake of car 1 focused well above the front wing 1st element suction surface of car 2.


This is another point for lowering the front wings again - nearer the ground, turbulent eddies are much more quickly damped into extremely small scale turbulence which would dissipate quite quickly.
We agree.

Then what follows:


Code: Select all

They ignored the diffuser and wings combining - that will create alot of turbulence.

Also, the effect of the wing trailing vortex system on the diffuser induced upwash would be marginal at best - when considering the wing is far above the region of flow that actually matters (i.e. the air that will flow onto the front wing of car 2).


Small scale turbulence results from the Kolmogorov cascade effects. In some areas it results directly from the geometries (for instance, blade boundary layer wakes). But on F1 cars, in the highly turbulent field, it will come from the break down of larger scale turbulent structures.
The problem here is that i think your argument works on the basis you think massive turbulent flow would occur after a CDG or an Evolution of the standard rear wing.

I mean, small scale turbulences does occurs but their effect depends on the energy of the turbulent flow.

Here (and i'm not an advocate of CDG, i just give it benefit of doubt) the goal is too minimise it.

BUT your argument of CDG/diffuser combining does convinces me as this is clear that idea of having a standard "laminar" zone for the front wing and
one low energy turbulent flow for slipstreaming is quite optimistic.

I think this is already hard in straight line but i can't imagine what would occurs in a turn.

However on the principle, i think this is valid.


What do you think if we bring back tunnels? this would reduces the size of the diffuser isn't it?

kilcoo316
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Joined: 09 Mar 2005, 16:45
Location: Kilcoo, Ireland

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I think the main idea behind the CDG wing is to minimise upwash in the wake. [Which ignores the more convenient solution of lowering the front wings again - but the FIA could never admit to having got it wrong before :wink:]


Anyway, with the (modern) diffuser creating plenty of turbulence already, combined with 2 trailing vortex systems from the top wing instead of just the 1 system - in my opinion turbulence levels will be increased.

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checkered
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Joined: 02 Mar 2007, 14:32

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kilcoo316 wrote:I think the main idea behind the CDG wing is to minimise upwash in the wake. [Which ignores the more convenient solution of lowering the front wings again - but the FIA could never admit to having got it wrong before :wink:]

Anyway, with the (modern) diffuser creating plenty of turbulence already, combined with 2 trailing vortex systems from the top wing instead of just the 1 system - in my opinion turbulence levels will be increased.
Image
Image

:wink: (Images routed from Dalco AG website (link) , the supplier of 12 teraflop ALBERT² for BMW Sauber)

Edit: Someone's 3D illustration of the CDG wing concept (from 2005) in Turbosquid (link)

Image

Ogami musashi
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kilcoo316 wrote:I think the main idea behind the CDG wing is to minimise upwash in the wake. [Which ignores the more convenient solution of lowering the front wings again - but the FIA could never admit to having got it wrong before :wink:]
Lol, yes i think that's the most simple solution yet FIA tries to make a less reliable and more complex one...well we're in F1 you know? instead of going back to slicks to increase grip, teams has to run several hundreds of hours to find the best rubber composition to make thoses threaded tyres to grip.
Quite an irony from a federation that wants costs to be cut down...

Anyway, with the (modern) diffuser creating plenty of turbulence already, combined with 2 trailing vortex systems from the top wing instead of just the 1 system - in my opinion turbulence levels will be increased.
On this subject, i didn't study diffusers too much, what makes the modern diffuser a turbulent generating system?



Checkered: thank you , the upwash and turbulent state is quite obvious here, actually according to miqi23 in the interpretation of the CFD here
http://www.f1technical.net/articles/4577

The diffuser/wing combination vortex and upwash can be found in the tyres/CDG configuration too.

And judging by the 3D flows CFd, while there's definitely a downwash zone, the diffuser, tyres/CDG still produce upwash that affects the rear wing.

However i think the main problem here is diffuser as noted by kilcoo.

Well, what i'm afraid of is that i we keep higher the rear wing then it will affect the following car's rear wing maybe.

kilcoo316
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Joined: 09 Mar 2005, 16:45
Location: Kilcoo, Ireland

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Ogami musashi wrote: On this subject, i didn't study diffusers too much, what makes the modern diffuser a turbulent generating system?
The extreme spanwise load variations and inherent flow property variations will result in mixing = turbulence.


A uniform diffuser with a ramp angle of (say) 5 degrees would contribute much less turbulence I would expect.


Admittedly, its not exactly an area I know too well, but I'm just going with what I would expect to happen.

Ogami musashi
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Joined: 13 Jun 2007, 22:57

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okay thank you, definitely an area to look for, i'm pretty sure the diffuser will be reshaped with the tunnels to be implemented in 2011.

Another possibility is the inverse situation, the following car movable aerodynamics.
Not only they plan for angle of attack variation but for shape morphing and plasma generation.

Because the Fia plans it into cooling ducts i think there's maybe room for lowering the turbulence caused by wheels and structures interactions.

Another possibility is circulation wings, here as we're concerned about turbulence this could of a very great interest, those wings blow the boundary layer were it is about to transition to turbulent and by trailing edge shaping they make the transition actually going on the compression side (so in formula 1 on the upper side of the wing).

That's clearly the thing that makes me quite optimistic about those regulations, morphing and active aeros and more generaly drag reduction is a sane topic to go.

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checkered
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Joined: 02 Mar 2007, 14:32

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Teams close to agreeing overtaking plan (link, Autosport)

The Overtaking Working Group has essentially agreed on a new diffuser design that could be introduced by 2009. The next challenge will be figuring out the design criteria for the rear wing. One idea being floated is that the front wing could be "switchable" (I take it that this means a rectractable element of some sort, either making chord or length variable ... though this could also refer to modifying the lateral AoA). It's possible that flaps, chimneys, winglets and bargeboards go bye-bye very soon, too.

Ogami musashi
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Great news, i just hope that the ban of appendages will be balanced by more complex bodyworks.

I'm also glad all of this is for 2009 wich probably means that in 2011 the movable aeros will be in a more complex form like morphing,plasma etc.then more lift/drag effciency oriented.

Ogami musashi
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Joined: 13 Jun 2007, 22:57

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I think this link may be of great interest for everyone here with or without technical knowledge, a 1 hour (in two parts) podcast interview with pat symons and maurice hamilton on the FIA proposed 2011 regs.

Talks about the 5 big points that F1 needs to look at with topics like overtaking necessity, cost control, greener formula, relevance of racing, improving the show etc..
IHMO a very wise view of the thing and some cool informations.

http://www.ing-renaultf1.com/en/search/ ... eason=2007

(The podcast is name "the future of F1").

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checkered
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Ogami musashi wrote:I think this link may be of great interest for everyone here with or without technical knowledge, a 1 hour (in two parts) podcast interview with pat symons and maurice hamilton on the FIA proposed 2011 regs.
Yeah, I listened through it some time ago with the intention of referring the main points here. Symonds certainly once again offered intelligent comments, but at least for me the presentation as a whole wasn't such a revelation. Some things I agreed upon, some things not so much. Frankly the discussion could've been done in half the time, I'm not quite sure what Hamilton's role was in all that. But Ogami is right, put it on, you'll be able to work meanwhile ... or something.

Perhaps it's telling that of that presentation my clearest memory is a pretty darn good description of "pinnaclism", that term that has been bugging many for such a long time. Pat fashioned it something like (not a direct quote) ... "To be a pinnacle means that you've got something that everyone aspires to; the engineers, mechanics, drivers and audience. That doesn't mean you have to be fastest or strongest of all." That sums it up for me at least.

Ogami musashi
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Maurice role was to be a "lambda fan" one, in witch he fails because he obviously knows much more but at the same time points some valid points.

I definitely agree with symonds on most parts mainly that "improving the show" and overtaking was not only a technical question but also a mentality question (the quote on team aiming at being in the front is relevant i think).


By the way the cool info for me was that the 2009 aero package seems to work well.

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checkered
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Quotes from the Friday press conference (Monza):

Q: Now you're involved in what I believe is called the overtaking working group. Can you tell us how that's coming along? What it's doing? Give a general update?

Symonds: Yeah, it's coming along well, I think, in that the four wind tunnel sessions have now finished and yesterday we sat down to discuss the final results and to really pull out the parts that are needed to be the framework of the regulations. The next steps are to write some of those regulations and to test the results on a simulator, which is happening, I believe, next Wednesday. We're meeting - as the technical working group - at a special meeting for a report from the overtaking working group on October 12, I believe, and at that meeting, we will present the results of the work that has been going on over the summer and decide how we progress it through with a view to writing regulations in 2009 that will produce an aerodynamic solution or a car solution, let's say, that will improve the possibility of cars overtaking. It's not going to lead to saloon car racing or NASCAR racing or anything like that, but it's certainly going to take away, I believe, some of the difficulties that the drivers are experiencing at the moment.

Q: And it really could happen, because we've heard about it for several years...

Symonds: Well, the overtaking working group was actually only formed in January, our first meeting was in January. It's been an exemplary bit of work I think, in that all the teams except one have contributed to it. The FIA has contributed to it, it's been a very co-operative effort but guided by quite a small group, and I think it's a little bit of a model for how we might do some other things. I think it's good that the stake-holders of Formula One actually put their money in to doing the research that's needed to do these very complicated jobs - what I'd like to say is - properly. I hope that we do more things like this.

...

Q: A question now to you all: you've all done a fantastic job in your various teams to make the cars incredibly reliable, as we saw here a couple of years ago: 22 cars finished; as we saw two weeks ago when 21 cars finished. But it does mean that, as Pat is very fond of saying, you spend two days trying to put the fastest car on the front of the grid, it's very difficult for anyone to overtake and if you start 14th, you're not likely to get any World Championship points. Is there any engineering challenge, is there a balance somewhere where perhaps engineering is more challenged to make better racing, to make more interesting racing, to give everybody a chance of winning points? Is there an engineering challenge to perhaps shake up the order during the race itself?

Symonds: Well, it's interesting that you say 'is it an engineering challenge?' because the link between the sporting and the engineering challenge is often a very interesting one. The engineering challenge can be simplified to producing the car that's going to win races. It's a very simple thing to say but actually if you look at it in a little bit more depth it's perhaps not quite as apparent as it may seem. At the moment, if you consider, for example, the aerodynamics of the car, we all spend a great deal of time in our wind tunnels and with our computational fluid dynamics to make a car that has the best possible aerodynamic efficiency because we know that that will give us the best lap time and at the moment, winning races is all about having the best lap time from your car. Now if you imagine a situation where you had sporting regulations such as they have in GP2 where, if in your first race you produced a car that was fast, you won the race and that meant then that you were placed further down on the grid (for the second race), then the sporting challenge, and the sporting regulations would lead you to develop your engineering in a slightly different way. In other words, you wouldn't spend all your time in the wind tunnel, just trying to get the best possible efficiency and making the car achieve a minimum lap time. You would actually spend some time looking at overtaking because you would know that no matter how successful you were at making your car fast, you were at some point in the weekend going to have to do some overtaking, and therefore you had better study it, you had better find out how to make it happen. So I think part of the answer to your question is that the sporting regulations will perhaps determine how the engineers approach their problem, and maybe that's the way to think of these things.

Willis: Well, to answer your question directly: do I think that the very high levels of reliability - and I wish our team shared those high levels of reliability - but does higher reliability lead to bad racing? I think the simple answer is no, it doesn't. I think it's disappointing to people watching a race if half the cars don't finish the race. For example, Moto GP is very successful with very high levels of reliability. I think the problem is - and I'm making an additional point to Pat's point - I think the problem is that the cars are too easy to drive in that the drivers are able to drive at pretty much 95-99 percent of their one lap potential and they do that for two or three stints throughout the race, so there are very few mistakes being made and that is one of the reasons why we are seeing such processional races. If we could make the cars harder to race so that you often found yourself in a position of running wide, going off the track, having to come back, having to pass the person in front, then, as Pat said, we would be starting to think about designing our cars to do more than just race against the clock. So there is something in the way that we... I think it's a regulation thing. If we can think of making the cars fundamentally harder to drive, mistakes happen more, drivers simply can't drive at 100 percent because it's too risky for them, then we can see more mixed up and probably better racing.

Almondo: I have to say firstly that I share what my colleagues said because starting from the sporting rules, I have to say that the sporting rules gives you the boundaries of your technical problems. Then, once these rules are clear enough, you have to develop and do your engineering in order to achieve the fastest car. So this is the first thing. I think the second step then is that you have to do your best job in terms of technical effort, investing your money in the direction that is defined in the sporting rules. Secondly, probably it's better to say that once you have your clear direction, everything is related not only to the reliability, because having reliable cars is just giving you in reality the possibility to see a race where all the cars are reliable and finishing the race. The point is that also in this case probably the sporting rules have to be more difficult in order to give the possibility to everyone to be reliable. If you, for example, impose a rule that is all the weekend long with a car that can be, in a certain way, changed or parts changed, I'm sure that the reliability, as aside from the engineering point of view, is more difficult and then the reliability will have another level, so it's something that is always a two-way problem.

Rampf: I think it's correct that this year most of the overtaking is done with the pit strategy, basically, when you're coming in for your pit stop, and the reliability of the cars is very high. But I don't think that it's correct just to make some rule changes to make a penalty for a quick car and he has to move back or some artificial penalty, just to mix up the grid. When we look forward to next year, there will be no traction control, so for sure it's more difficult to drive the cars and the year after the car concepts will be quite different and I think then racing will be quite different as well because of a completely different car concept with much less downforce. Teams will take different approaches to the development of the car and I think there will automatically be more overtaking with the rule changes.

...

Q: (Panos Diamantis - Car and Driver) A question for Mr Symonds and for Mr Almondo: We saw your teams have problems with wind tunnels this year. Do you think that aerodynamics has gone over the limit in Formula One? And, secondly, would you like a second wind tunnel?

Symonds: I don't think that Formula One should be about limits in that respect. The problems we had with our car this year are largely aerodynamic and I don't think one should read much further than that. Would we like a second wind tunnel? I said earlier that it is reasonably easy to assess where to spend your money and what you will get back from it and aerodynamics is the way to make cars go faster, so I guess the answer is yes we would, but equally computational fluid dynamics is moving on at a pace where it is challenging wind tunnels and maybe in the future it will be the primary tool rather than secondary and therefore at Renault we have invested in that rather than a second wind tunnel.

Almondo: A wind tunnel is like several other industrial plants all over the world - something that can be used 24 hours a day and seven days a week - so I don't think we have reached the limits and sometimes we have problems and these we just have to accept. The second matter I think is a balance of how much you want to spend and what is the benefit. From a general point of view, I have to say that it is more sensible to imagine a Formula One with a limit on spending money and this of course has to be helped from the general point of view, from the rules, because otherwise you have just the budget limited. So a support from the rules is beneficial in this respect because it gives you a picture that is more used in a better way - a plant that can be used by all the teams instead of having bigger and bigger plants that is bringing you costs but not investing in quality, just in quantity.

Ogami musashi
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thank you checkered! i wonder how those cars will behave with less downforce..really i'm curious.

Too bad i can't contact Pat Symonds i'd had tons of questions there.