AbbaleRacing77 wrote:Marcush the design of the bodywork seems to show otherwise and honestly i think your only guessing as to what the friction of the radiator is with no facts at all. This is Renault F1 not Daewoo, they can design a radiator with less drag if they want to and make them a little bigger to make up for the lost cooling (which definately looks plausible because the radiators look huge). For all i know they couldve had big bob in the boonies making these radiators by hand for the last year... nobody knows
And even if the radiators have high friction it shouldnt matter because were talking about air being rammed through a sidepod here... Im not talking about a freestream of uninterupted air. Air isnt gonna just bounce off the radiators, the air is gonna be forced through via constant pressure, and that air is gonna go somewhere. That "Somewhere" is a much smaller hole out the back which will result in a higher velocity well shaped flow of air over the diffuser. Your claim is like saying that you cant have a air ram intake because the airfilter creates some friction which we know in the 21st cetury is untrue. Why? because air ram has constant air pressure. Except the volume of air intake to the hole where it exits on the sidepods is an even greater ratio then a ram air intake. Which infact makes my theory very plausible and most likely true.
Renault couldve made the exits out the bodywork like redbulls big hole out the back in order to create a better "undercut" sidepod but they didnt... They shaped the exits flat and smooth to direct air over the diffuser and they did it for a very good reason.
Please dont make me whip out the crayons my drawing skills are terrible
Dude, you may be on to something here. I want to contribute a tad!
So we know by law, that if we constrict the duct that air is passing through, it will speed up. LAW. given that fact, we can say that with the R31, the air passing through the side pods will accelerate IF they exit where we are assuming.
BUT we have radiators in the way of our beautiful flowing duct. So whatever velocity we will lose through the radiator the question is will it be gained in the energy absorbed by heat? Then what velocity do we gain with the exit being smaller than the inlet? And for those of you saying that it will slow, that is impossible, if that is the case, less air is coming out than coming in and that would mean choke and huge drag problems! The SAME amount of air comes out the back as what goes in, just faster!
HAVING said that, I am not sure if that is what is going on.... but I would like to think so.
bed time
