bobs77vet
Well-known member
what is the new design are you going to change? another bracket so it cant fall off?
I'm building new headers/sidepipes for it... but it will also have the pipes closer to the car and use both tabs.... even with a broken tab, it shouldn't have come off...what is the new design are you going to change? another bracket so it cant fall off?
























Fans? Ducting? Hood exits? Bigger? Higher pressure system - like NASCAR? Do tell.the more I look at it, the more likely I'm going to re-engineer the cooling system. I'm tired of cooling problems...
ducting.Fans? Ducting? Hood exits? Bigger? Higher pressure system - like NASCAR? Do tell.
I've been in the "Skunk-Works" working front uprights, so can't share that.
Cheers - Jim











the rotors are steel, but remember, I'm running Camaro bits - thus these are for a SS CamaroAre the rotors coated? - Or are they Carbon/Ceramic? The vanes make me think - maybe not - but do tell...
Accessories? AirCon/Radio? or support for the fuel system and maybe water pump (electric?) throttle, steering, dry sump, etc.
Crank trigger install is pretty easy - but then the rest of the system - that is a a few months out for me. I hope the Electrodyne is still functional!
May start milling the uprights for the front next week. Just about settled on a design that I'm happy with the numbers.
BTW - I run most YTs at 2x and then sort and revisit what makes sense. I would have burned "only" 4 minutes!
Cheers - Jim



I'm a bit interested in this because this is on the splitter, not the diffuser.Pg 25 was first posts (working backwards) I saw on those diffuser ducts In
Internal Body Aerodynamics Thread. There should be a bunch of older posts.

but where he loses me is the answer to this question - it creates a low pressure somewhere, where? If I'm looking at that correctly, the air hits the tire and tumbles out.... what am I not getting?It is an effective approach. Implemented on the little sports racer. Did a few trials, but then sold the car.
So, sorry have no personal experience I can add - but will incorporate on Elvira too.
It represents up to an effective "doubling" (as I recall ) of the splitter area. Here is the chart I posted fro RHR a while back:
View attachment 55892
GO FOR IT!
Cheers - Jim
These front splitter "diffusers" do not make downforce at the discharge end, they actually create a low pressure area at the point where the floor of the diffuser starts to diverge from the ground. It works the same as diffusers at the rear of the car. If you create back pressure at the discharge end of the diffuser -- like air hitting the tire or ducting into a radiator, for example, you reduce the effectiveness of the diffuser. The angle of the "upslope" of the diffuser is also critical. If it is too steep (greater than 12-15*), then the airflow will go turbulent and you lose the low pressure area. The arrows in the second photo show where the greatest downforce is created. These things really work! Hope this helps.but where he loses me is the answer to this question - it creates a low pressure somewhere, where? If I'm looking at that correctly, the air hits the tire and tumbles out.... what am I not getting?
and the why I'm pursuing this... if it creates low pressure at those bumps (I know, it's early and my technical terms don't wake up until later) - could I duct that air into the radiator and get a similar result?

