Nobody has referenced the best old thread in this one yet, so here it is - thread71-174690.
I'm new here, I found that old thread on Google while researching the possibility of twincharging my car vs a bigger blower vs straight turbo. It is the best technical discussion i've ever had the pleasure of reading in any forum on any topic I think, and I thank all who participated - especially Pat and Warpspeed - for the fantastic information. I am DEFINATELY going twincharged now. Maybe I can contribute a little, too.
It seems to me after much looking around, that starting with a supercharged engine or an engine for which well developed supercharging kits are readily available rather than a turbo motor would be a far simpler begining point. Fabbing up a turbo system involves an exhaust manifold flange and some pipes (okay not really, but it IS easier) and intercooling should you desire it is simpler. Adding a supercharger involes a custom intake mani and mounts, removing something or finding room for the extra pulley not to mention finding a correct size belt and new tensioner settings for the extra drag - and now you get to cool the air you compressed, which is a lot more involed than a front mount air-to-air common in a custom turbo setup. I mention this because in subsequent threads I see a lot of people talking about adding a blower to this or that turbo motor for a twincharge, and that seems overcomplicated to me.
I'm starting with a great ice of work, the GM LSJ EcoTec. I wish to bring in a new (I hope) idea to the twincharging discussion, that of using a remote-mount turbo for the system. It seems to me that this would have several benifits. Firstly, as remote turbo guys are always saying, cooler operating temps and less heat transferred to the compressed air. Since we're compressing it again, cooler to begin with can't possibly hurt. Secondly, we can run a real header system before the turbine. Yes, the positive action makes this unecessary per se, but it occurs to me that in combination with a properly proportioned wastegate mounted near the front of the system and well before the turbine, further "tuning" of this complex exhaust equation becomes possible. Just a thought.
Lastly a question. The discussion has focused on a lesser pressure blower fed by a higher pressure turbine for the most part. I feel that keeping my blower PSI up (stock is 12-12.5) should make for stronger low end response, and blowing a few extra PSI at the top end via the bigger than normal turbo up top would flatten things out. Maybe less peak power this way, but a much flatter curve. Correct me if I'm way off here.
The plans forming in my head now would invlove a GM stage 2 type arrangement bumping the redline of my 2.0 to 7k rpm, spinning the blower slightly faster with a slightly smaller pulley delivering 15-ish known PSI, and affixing a GT30 or 35-ish turbo out back with a long tube header system and high-velocity tuned exhaust with a custom wastegate mounted up front to make the motor think the exhaust is a lot bigger once the turbo is up to speed - reducing overall backpressure and keeping things cooler and happier. I'll take a hit on overall pressure, I don't think I'll be starving for power, LMAO. The existing HPTuners suite for the LSJ would give me a fairly wide level of control over the fuel and spark without messing with standalone stuff, and the existing boost-bypass from GM makes that (very good) discussion moot for me as well.
I'm also thinking an E85 conversion makes for less overall thermal units of power, but more resisitance to the obscene boost levels and detonation for a lot less $$ than VP105, lol. This will be daily driven on a fairly frequent basis!
Thoughts? Feedback?
My plan is the existing monster fmic between the turbo and TB/engine. The little TSI uses an a/w IC in the intake manifold. how compact.
