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Extractors and turbos
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Extractors and turbos
I know the reason for extractors on NA engines but what about on turboed engines? Are they needed since the turbo itself acts as a restriction and increases back pressure etc?
That looks like what I would call a "split-pulse" manifold, intended to make better use at low revs of the pulsatile nature of exhaust flow, helping the turbo to spool up faster.KYSI wrote:
The length of the individual runners is important; get it wrong and you may not be much better off than a simple log manifold.
Whether you're talking about NA or turbo, not all exhaust manifolds are the same; proper design makes a significant contribution to performance. If you take the view that "extractors" are about taking advantage of exhaust pulses then it's not unreasonable to call a well designed turbo manifold "extractors".
The length itself doesn't matter other than shorter is better. You can't pulse tune when the exhaust gas changes temperature soo much.-Scott- wrote: The length of the individual runners is important; get it wrong and you may not be much better off than a simple log manifold.
Equal length headers like that will be better at high end, but for transient response the smallest dead volume wins. Notice all the modern diesels have the most compact headers they can, helps to keep the turbo spooled to meet emissions.
True; absolute length is probably not important, but to take advantage of the "split pulse" concept all runners should be as close to the same length as possible. Otherwise, what's the point of a split housing, such as that manifold is designed for?KiwiBacon wrote:The length itself doesn't matter other than shorter is better. You can't pulse tune when the exhaust gas changes temperature soo much.-Scott- wrote: The length of the individual runners is important; get it wrong and you may not be much better off than a simple log manifold.
as the RPM increases the flow more closely approximates a continuous one and like any pipework it will flow more for a given pressure if it is designed with non-restrictive bends etc. These designs are to give lower pressure drop at high flows exactly the same as extractors, not really suited to a 4wd due to high volume and its effect on lag. Also, all that welding on formed tube is bound to crack given some rough and hard 4wding, not to mention excessive use of underbonnet space.
-Simon M
Have applied the "extractors" theory in the pass to making manifolds for turbos, but to avoid the tight turns and getting the required matching lengths takes ALOT of time and a bit of space. We had both on a sports sedan, but we also didn't have any proven dyno evidence that the extra work produced a reduced spool-up time.
For a 4WD, would be a good project, but I don't think there is any benefit in the bush. For a comp truck it might be a different manner though.
- David.
For a 4WD, would be a good project, but I don't think there is any benefit in the bush. For a comp truck it might be a different manner though.
- David.
Need a bigger shed...
yeah thas one example. i've seen other deigns where they pair up certain ports, kinda like a short 6-3-1 or 6-2-1 extractors. bit more common with petrol motors as you have some RPM to play with.KYSI wrote:is this what your talking about? coz i would still call it a exhaust manifold and not extractorstweak'e wrote:you can have them. its just a custom manifold thats tuned more than a stock one. not worth bothering with unless your doing an extreme engine build.
complicated, exspencive and gives small gains. but if your chasing every last drop of power and have unlimited budget........
It is supposed to work best on 6 cyl engines and the result if done right is earlier spool.tweak'e wrote:yeah thas one example. i've seen other deigns where they pair up certain ports, kinda like a short 6-3-1 or 6-2-1 extractors. bit more common with petrol motors as you have some RPM to play with.KYSI wrote:is this what your talking about? coz i would still call it a exhaust manifold and not extractorstweak'e wrote:you can have them. its just a custom manifold thats tuned more than a stock one. not worth bothering with unless your doing an extreme engine build.
complicated, exspencive and gives small gains. but if your chasing every last drop of power and have unlimited budget........
On a 4 cyl the cylinder pairing doesn't look good and isn't easily acheived so it's not as common.
With my petrol fun toys, i was under the impression, longer runners = torque curve change, shorter = power curve.KiwiBacon wrote:The length itself doesn't matter other than shorter is better. You can't pulse tune when the exhaust gas changes temperature soo much.-Scott- wrote: The length of the individual runners is important; get it wrong and you may not be much better off than a simple log manifold.
Equal length headers like that will be better at high end, but for transient response the smallest dead volume wins. Notice all the modern diesels have the most compact headers they can, helps to keep the turbo spooled to meet emissions.
BBP Offroad
Boondall Backyard Performance
They call me the MR. throw cash at shiz til its comp specccccc
Boondall Backyard Performance
They call me the MR. throw cash at shiz til its comp specccccc
Are you talking intake or exhaust, na or forced? Tuned length runners work best at a given rev range - the shorter the runner, the higher the rev range. And, as others have mentioned, I believe forced induction systems really prefer shorter, more for reduced "dead space" to reduce lag.berad wrote:With my petrol fun toys, i was under the impression, longer runners = torque curve change, shorter = power curve.
considering power is calculated from torque and rpm, if the torque changes the power changes at the same point.berad wrote:With my petrol fun toys, i was under the impression, longer runners = torque curve change, shorter = power curve.KiwiBacon wrote:The length itself doesn't matter other than shorter is better. You can't pulse tune when the exhaust gas changes temperature soo much.-Scott- wrote: The length of the individual runners is important; get it wrong and you may not be much better off than a simple log manifold.
Equal length headers like that will be better at high end, but for transient response the smallest dead volume wins. Notice all the modern diesels have the most compact headers they can, helps to keep the turbo spooled to meet emissions.
http://www.mothfukle-engineering.com/
That only works on non-turbo engines. With a turbo your gas temp changes constantly, which changes the speed that pulses travel through the gas. The result means pulse tuning is limited to keeping them evenly spaced (which is where the equal length comes into play).berad wrote: With my petrol fun toys, i was under the impression, longer runners = torque curve change, shorter = power curve.
Thats right. Thats why the variable intake length mechanisms seen in the N/A falcon 4.0L's are locked in the turbo variants.KiwiBacon wrote:That only works on non-turbo engines. With a turbo your gas temp changes constantly, which changes the speed that pulses travel through the gas. The result means pulse tuning is limited to keeping them evenly spaced (which is where the equal length comes into play).berad wrote: With my petrol fun toys, i was under the impression, longer runners = torque curve change, shorter = power curve.
Tuned length turbo manifolds are probably more important on 4 cylinder engines more than anything else because the turbine wheel is only receiving four pulses per revolution (from only four cylinders firing per revolution). To set up a tuned length turbo manifold (4 cyl), ideally you would have the pipes tuned to a length that would allow the turbine wheel to recieve four individual pulses per revolution, which would inturn give a more constant turbo RPM and also give marginally better spool-up times.
At the end of the day, i dont see ANY benefit in doing something like this unless you are racing and need that extra 2HP, or that 0.2 second faster turbo response.
Most people call them turbo manifolds, some people call them turbo extractors (possibly due to their appearance). Its a bit like "rim locks" and bead locks....
IIRC a four stroke cylinder fires ever second revolution ? making it two firings / rev ?coxy321 wrote: (from only four cylinders firing per revolution).
Of course the underlying issue is as you described - less firings, greater need to harness pulse energy.
( usual disclaimers )
It seemed like a much better idea when I started it than it does now.
It seemed like a much better idea when I started it than it does now.
My bad - you are spot on the money there. Always half the firing per revolution as there is cylinders.MightyMouse wrote:IIRC a four stroke cylinder fires ever second revolution ? making it two firings / rev ?coxy321 wrote: (from only four cylinders firing per revolution).
Of course the underlying issue is as you described - less firings, greater need to harness pulse energy.
As most have said, you can do it, but it's a fair amount of work for what could be little gain. I watched a mate build his own manifold for his GQ turbo set up. He didn't go as far as tuned lengths because there is almost no space under a GQ bonnet. Granted it took him about 3 weeks of arvos and weekends with a welder and a die grinder. But I think he did make some gains when it comes to all out efficiency as compared to the off the shelf rail style manfolds that you get with a $3500 kit. They are nasty when you look at simple flow design.
His GQ is running a Garrett TB3404 and puts out 15psi at 1900rpm. Pretty bloody good for a home made system... and it flys!
I bought the same turbo with the same ideas, but never got around to it. I've since used the tubo on a Safari system that was on our 105. It runs a lot better but I don't think it spools up as quick as my mates GQ. There are other issues, it's not just the manifold...
His GQ is running a Garrett TB3404 and puts out 15psi at 1900rpm. Pretty bloody good for a home made system... and it flys!
I bought the same turbo with the same ideas, but never got around to it. I've since used the tubo on a Safari system that was on our 105. It runs a lot better but I don't think it spools up as quick as my mates GQ. There are other issues, it's not just the manifold...
I would have thought that with turbos (petrol and diesel) that keeping all the turbo to engine volumes at a minimum would have been more important than any equal length issues.
The minimal volume b/t the turbo and engine will reduce the amount of gas exhaust that is required to spin up the turbo (if you like, "primary lag") as well as reduce the time it takes to pressurise the inlet manifold ("secondary lag").
In the exhaust to turbo example it should also reduce the heat loss if the manifold pipes are shorter and thicker (volume to surface area ratio greater). The turbo will have a natural damping effect ("elastic" effective volume effect) on any exhaust pulses that may scavenge gas from the cylinder.
From what little I know, tuned pipes of any description are only of value in high or contant RPM engines where you are trying to scavenge as much exhaust gas as you can out of the cylinder.
The minimal volume b/t the turbo and engine will reduce the amount of gas exhaust that is required to spin up the turbo (if you like, "primary lag") as well as reduce the time it takes to pressurise the inlet manifold ("secondary lag").
In the exhaust to turbo example it should also reduce the heat loss if the manifold pipes are shorter and thicker (volume to surface area ratio greater). The turbo will have a natural damping effect ("elastic" effective volume effect) on any exhaust pulses that may scavenge gas from the cylinder.
From what little I know, tuned pipes of any description are only of value in high or contant RPM engines where you are trying to scavenge as much exhaust gas as you can out of the cylinder.
George Carlin, an American Comedian said; "Think of how stupid the average person is, and realise that half of them are stupider than that".
True, but i think that with an extractor style manifold, there is only so much you can do to make it all smaller/shorter (hence the octopus-like appearance of some). As an example, log style manifolds have less volume than an extractor type manifold, however they are less effective at distributing the pulses in an equal fashion. However, i think the cast units would transfer/hold the heat better than extractor type unit. Some people dont realise that the exhaust gases are only the half of it - its also the heat that helps spin that little wheel up.
isn't extractor just the nick for exhaust manifold?
I never really heard of anyone making out an extractor is sonething different.
Bit like Torque converter is the same as stall converter or stally.
That pic would be a single bank, as the exhast all ends up at the 1 point, I that it the other piping is a bypass for excess exhuast gas, unless it's for a twin turbo setup.
I never really heard of anyone making out an extractor is sonething different.
Bit like Torque converter is the same as stall converter or stally.
That pic would be a single bank, as the exhast all ends up at the 1 point, I that it the other piping is a bypass for excess exhuast gas, unless it's for a twin turbo setup.
Yes, that's why all the factory diesels have the smallest volume exhaust manifold they can use. Keeps lag to a minimum so they can meet euro 5 emissions and still wind 280hp from a 3 litre diesel.DAMKIA wrote:I would have thought that with turbos (petrol and diesel) that keeping all the turbo to engine volumes at a minimum would have been more important than any equal length issues.
The minimal volume b/t the turbo and engine will reduce the amount of gas exhaust that is required to spin up the turbo (if you like, "primary lag") as well as reduce the time it takes to pressurise the inlet manifold ("secondary lag").
In the exhaust to turbo example it should also reduce the heat loss if the manifold pipes are shorter and thicker (volume to surface area ratio greater). The turbo will have a natural damping effect ("elastic" effective volume effect) on any exhaust pulses that may scavenge gas from the cylinder.
The other point to mention, most turbo engines run around no valve overlap, where the typical NA setup with extracters can run heaps.DAMKIA wrote: From what little I know, tuned pipes of any description are only of value in high or contant RPM engines where you are trying to scavenge as much exhaust gas as you can out of the cylinder.
IMO, an exhaust manifold is exactly that. An aftermarket manifold designed to improve the path/flow of exhaust gasses is call a set of extractors. Also, turbo manifolds are just turbo manifolds - however i think its fair that people call the custom units extractors.zagan wrote:isn't extractor just the nick for exhaust manifold?
I never really heard of anyone making out an extractor is sonething different.
Bit like Torque converter is the same as stall converter or stally.
That pic would be a single bank, as the exhast all ends up at the 1 point, I that it the other piping is a bypass for excess exhuast gas, unless it's for a twin turbo setup.
Any of you northerners want a potato cake??
LOL potato cakecoxy321 wrote:IMO, an exhaust manifold is exactly that. An aftermarket manifold designed to improve the path/flow of exhaust gasses is call a set of extractors. Also, turbo manifolds are just turbo manifolds - however i think its fair that people call the custom units extractors.zagan wrote:isn't extractor just the nick for exhaust manifold?
I never really heard of anyone making out an extractor is sonething different.
Bit like Torque converter is the same as stall converter or stally.
That pic would be a single bank, as the exhast all ends up at the 1 point, I that it the other piping is a bypass for excess exhuast gas, unless it's for a twin turbo setup.
Any of you northerners want a potato cake??
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