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Akane wrote:Still trying to understand how same PSI will equal to different amount of oxygen particles providing intercooling is used.
4000GT wrote:Adamal wrote:Yea, could definatly make more power, but with the engine in question, I don't know if it would be able to make much more power without causing some serious damage.
I think what Akane and vvega are getting at is that the GT35R's are a bit overkill for the engine in its current build. If it were built tougher, then they'd be great
I agree, more will need to be done to the motor (if stock), to take advantage of the big turbo's. Again it really depends what the builder had in mind for the motor. Example, I am tending towards a T51R on my 1UZ, but I wont do the rods / pistons etc straight away, I want to see how far the stock motor can be pushed. if I dyno and get say 450WHP at 10psi it would be foolish for someone to say you should change turbo as it is too big to make that 450WHP you are making...
BlakJak wrote:Geezus vvega. Put some effort into spelling and grammar, will you... your posts may make some sense but theyre damned hard work to read...
Cogent wrote: there is a fraudulent cogent-post in your sig and i insist that you cease displaying it immediately or else i'll track you down and perform acts of homosexuality on your face
Since engine air consumption doesn't change with a different sized turbo, we can consider that to be constant. If we have the same boost pressure that means we are flowing the same volume of air out of the turbo (cfm).
Malcolm wrote:how can the VE of the engine possibly change dependant on the turbo? That doesn't even make sense. Provided the air entering the inlet ports is the same temperature, at the same pressure, and isn't considerably more turbulent from one turbo to the other (which is unlikely by the time it's gone through a heap of piping, and intercooler etc), then why should the engine care what kind of turbo the air has come from? The only reason I see for making the same power off less boost from a different turbo is if the smaller one was heating the air too much, and so to get the same mass flow rate you need a considerably higher volumetric flow rate, hence you end up with more pressure for the same air mass (and hence potential to produce power) - at which point you're clearly operating your smaller turbo out of its efficiency range
4000GT wrote:Malcolm wrote:how can the VE of the engine possibly change dependant on the turbo? That doesn't even make sense. Provided the air entering the inlet ports is the same temperature, at the same pressure, and isn't considerably more turbulent from one turbo to the other (which is unlikely by the time it's gone through a heap of piping, and intercooler etc), then why should the engine care what kind of turbo the air has come from? The only reason I see for making the same power off less boost from a different turbo is if the smaller one was heating the air too much, and so to get the same mass flow rate you need a considerably higher volumetric flow rate, hence you end up with more pressure for the same air mass (and hence potential to produce power) - at which point you're clearly operating your smaller turbo out of its efficiency range
Wont it change because the temperature IS different between different sized turbo's... as much as you discount it in your discussion, thats why bigger turbos exist, because it does make a difference.
vvega wrote:restiction of the ex housing and of teh compression
obvioulsy a smaller hole restrics flow more considerable
this effects teh v.e of the engine because the egine cant gasp enough air so isnt getting a full charge
its no different to the way that cams affect teh engines v.e
you can work out a engines theritical v.e btu teh you have to add in corrections
v
4000GT wrote:Wont it change because the temperature IS different between different sized turbo's... as much as you discount it in your discussion, thats why bigger turbos exist, because it does make a difference. The point I made in my very first post was about charge density...
Malcolm wrote:vvega wrote:restiction of the ex housing and of teh compression
obvioulsy a smaller hole restrics flow more considerable
this effects teh v.e of the engine because the egine cant gasp enough air so isnt getting a full charge
its no different to the way that cams affect teh engines v.e
you can work out a engines theritical v.e btu teh you have to add in corrections
v
I can see how the turbine housing can effect the VE, although to what extent is hard to gather, my point is more about using a correctly sized turbo VS and oversized one, IMO a properly sized turbo shouldn't be overly restrictive on the exhaust side compared to a oversized one (kinda like how a properly sized exhaust system restricts no less than an oversized one)
Malcolm wrote:4000GT wrote:Wont it change because the temperature IS different between different sized turbo's... as much as you discount it in your discussion, thats why bigger turbos exist, because it does make a difference. The point I made in my very first post was about charge density...
the temperature difference will only be significant if you're operating the smaller turbo outside of its efficiency. If it's properly specced then the smaller one wont be heating much more than the larger one.
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