Thread: Would running a V8 with no exhaust cause this? (apart from hearing loss)

the other thing with 90* crank throw V8's is that the firing order on each bank aren't even and both systems need to be joined somehow, either with a balance pipe on a dual system or large single system to balance the firing pulses, which aids the reflected waves which aid scavenging and torque.

A 180* crank V8 (think F1 engine or Ferrari) don't need the systems joined as firing pulses are evenly spaced on each bank.

Way back in the mid nineties when I was building and playing with race car engines we spent several nights on the dyno trialling different merge collector/cone/megaphone/dump pipe setups on Formula Ford engines, all the way up to a 3" cone and pipe. The big system was unbelievably loud, much, much louder than anything else we trialled and astonishingly down in power and torque compared to our baseline system ( conventional merge style collector, 2" dump), let alone our optimal system.

Originally Posted by Blknight.aus

Now with no back pressure you cant get the scavanging to effect properly. This will leave burnt gasses in the combustion chamber wich robs you of fuel/air mix...

naa, I disagree. It's not a back pressure thing, it's harnessing reflected waves and balancing velocities with tube diameters.

It seems that with extractors you shouldn't go too high in the tube diameter to keep the gas velocity up which helps improve the scavenging effect from the extractors, the outlets into the collector as you say going in firing order. When you get too big you lose the pressure and velocity to make the extractors work.

But these all run exhaust systems, not stubs etc.

The other thing which is interesting, probably particularly with race engines, is that the length/volume of the exhaust will move the max torque position around in the rev range.

Originally Posted by rick130

naa, I disagree. It's not a back pressure thing, it's harnessing reflected waves and balancing velocities with tube diameters.

Thats what I think the game is all about too. But this is all about maximising the power/torque from engines with full exhaust systems, something where I also believe there is no need for back pressure - the easier flowing the better.

Just tell me once I've annoyed everybody with these questions, but they're sincere.

Originally Posted by Slunnie

Thats what I think the game is all about too. But this is all about maximising the power/torque from engines with full exhaust systems, something where I also believe there is no need for back pressure - the easier flowing the better.

Just tell me once I've annoyed everybody with these questions, but they're sincere.

Not being rude, but all the theory in the world probably isn't going to convince you, best way would be take your petrol powered vehicle, drop the exhaust/fit something larger and see for yourself......But DON'T mistake the added noise for a feeling of power

The most noticeable time I realised this myself, was when I fitted a stock EFI 5l windsor to my rangie which had 4 into 1's, 2" into single 2.5" and changed it for a twin 2.25", you noticed a substantial loss in torque

Yet that was for later plans....351 now and supercharger when i get back from my trip in june

ok before you get to the reflecting waves thing and blanacing and all of that, think single cylinders...much like a 2 stroke...( i should have made that a bit clearer when i wrote it)

when you get to reflecting your exhaust pulses to assist with valving and extraction you still need to retain a certain level of back pressure otherwise the gasses just frell off out of the pipes and theres not much to reflect around..

Originally Posted by rovercare

Not being rude, but all the theory in the world probably isn't going to convince you, best way would be take your petrol powered vehicle, drop the exhaust/fit something larger and see for yourself......But DON'T mistake the added noise for a feeling of power

The most noticeable time I realised this myself, was when I fitted a stock EFI 5l windsor to my rangie which had 4 into 1's, 2" into single 2.5" and changed it for a twin 2.25", you noticed a substantial loss in torque

Yet that was for later plans....351 now and supercharger when i get back from my trip in june

If it just does there must be an explanation why though and pumping theory at low revs isn't exactly rocket science... its just that I don't know it. High revs is different though, especially when there is synching of the waves etc. What I still don't get though is why at low revs what is essentially adding pressure can improve torque. Extraction theory is sound for a full exhaust system, but thats a relative for an exhaust system, not in comparison to a header which has no back pressure.

Originally Posted by Blknight.aus

ok before you get to the reflecting waves thing and blanacing and all of that, think single cylinders...much like a 2 stroke...( i should have made that a bit clearer when i wrote it)

when you get to reflecting your exhaust pulses to assist with valving and extraction you still need to retain a certain level of back pressure otherwise the gasses just frell off out of the pipes and theres not much to reflect around..

Yes, but in a two stroke the back pressure is a momentary reflecting pulse from the expansion chamber that is about forcing the fuel/air mixture that has escaped into the exhaust back into the cylinder once the transfer port has shut - so in a sence it's almost like a micro supercharger. The 4 strokes don;t have anything like that.