DJTricky
Banned
hey 95twitt, where about im MN do you live? i would love to see your set up and maybe we could chat about how hard it would be get get me boosted. im right over in new hope.
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I agree. Everything you mention here is true. Perhaps a little out of context though. I think it would be fair to say, when there is back pressure on a turbo charger, but, at that same time, there is positive pressure coming in the intake, that all but neutralize that issue.
I think you would agree, it is not the same as back pressure on a N/A engine.
As far as heat goes, the higher the exhaust temperature, the faster the turbo will spin. The pressure and temperature drop across the turbine wheel, (expansion) provides the power to drive the compressor.
Bottom line: a turbocharger uses waste heat to produce boost, without consuming fuel to power the compressor.
You mentioned not having parasitic drag under vacuum. To me the concern would be, the parasitic drag, at full boost. The interesting thing to me is the Turbo requires a “waste gate” to stop the chain reaction. Otherwise the turbo would outrun the octane of the gas.
The only time exhaust restriction is an issue is in normally aspirated engines. In a N/A application, any obstruction in the air path, from air cleaner to tail pipe, is going to reduce efficiency.
I have two engines that are identical 383’s. Same heads, cam, cranks, rods, etc. The only difference between them is one is supercharged and the other is turbocharged.
They both for all practical purposes, put out the same power. The Camaro is 580 RWHP and the Tahoe is 575. The Camaro is running 15 psi boost and the Tahoe is at 12 PSI. One pound of boost, is worth about 50 hp.
In other words, if the Tahoe were running @ 15 psi boost, it would be 725 RWHP. So that would seem to be, roughly the amount of hp, the S/C is drawing.
Anyway, thanks for your input. This would be a good topic to discuss over a couple of beers.
Here are a couple of fun video’s for anyone that wants to learn more about forced induction, from the master Gale Banks……
http://www.youtube.com/watch?v=Z3iBKwcQ3Yc
http://www.youtube.com/watch?v=poCsdMrm998&NR=1
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I will agree to disagree with you. Using a turbo is like blowing on a pinwheel, you need a lot of air to get that thing moving, and your engine has to produce that air.
Comparing an engine in a Camaro to an engine in a Tahoe would only work if you took both engines out and compared them on dynos. I would also ask what type of a dyno, as you would need to use a load bearing dyno to get real world numbers rather than an intertia dyno. Also, the type of supercharger you are using will make a big difference as well.
But like I stated, both are power makers, just depends on where you want the power. I will leave this thread alone now.
well, sir, if you want to get into the “future”, you need to consider what has recently been developed in diesels.
It is best described as, progressive combustion. Superchargers are not practical for diesels, because of their narrow range. Their rpm’s are limited by their gear boxes. Turbo’s can spin two to three times faster, allowing for the practical application of the newest technology in variable vanes and blade design.
Back to progressive combustion. Now that electronic fuel injection has found it way into diesel’s, they are able to use several bursts of fuel, during the combustion cycle, itself. Also keep in mind that diesel’s do not have a problem of over running their octane, like gasoline engines.
Between that and variable valve timing and boost as much as 60 psi in passenger cars, you could have a little four cylinder turbo charged engine, putting out 500 hp for performance and getting 40 miles per gallon when cruising. No ignition to worry about and clean exhaust.
I think you will find that the supercharged engines are satisfying the market for the moment, because they are cheaper and they are detuned for keeping warranty work to a minimum.
The only way you can deal with extreme boost from a supercharger, is to switch to alcohol for fuel. That’s great for the strip, but hard to travel around the country.
I’m not suggesting that everyone switch to turbo’s. Like i said before. I have both and like them both for different reasons. I think this discussion got going because of the issue of trying to figure out how much power a turbo robs from the engine, to drive it.
There is always going to be some back pressure in exhaust. Otherwise, it would not find it’s way to the tail pipe.
To learn more about turbo diesel’s, there is a link a few post’s back, from banks engineering that has some good info about the future.
lol......