DamnedButDetermined
09-12-2012, 08:03 AM
I am just brainstorming here and i would like some people to think about this with me. I am not looking for a monster HP engine setup but I would like to produce 12 PSI at 3500 RPM and remain at 12 PSI until redline. Based on the displacement of the KA24 that would mean the compressor would have to be efficient at producing a pressure ratio of 1.88 from 17.63 lb/min to 36 lb/min of air flow. That is a pretty big gap and usually it would mean you would be anywhere from 65% to 80%, depending of the compressor used, throughout the rpm curve. This is a very useful calculator that will give you the CFM or LB/min based on engine and RPM...
Compressor Flow Map Calculator (http://lovehorsepower.com/joomla/index.php?option=com_content&view=article&id=35:compressor-flow-map-calculator&catid=8:mr2-helpful-stuff&Itemid=49)
I have been looking around at compressor maps from this page...
COMPRESSOR MAPS (http://turbocharged.com/catalog/compmaps/fig16.html)
And I think the TO4E "60" would be the best compressor for the job. It would keep me inside the 72% range and it stays inside the 80% range for a long time before dropping back down.
The next thing that has to be worried about it the turbine wheel would have to get up to speed quickly and then a good wastegate would have to keep the exhaust gasses in check for a very long time to keep the turbo from over spinning. I think this would be the Achilles Heal in this idea. Are wastegates reliable enough to do something like this without having to worry too much?
How do I size the turbine side of the compressor so that I can achieve the shaft RPM speeds necessary to keep the compressor at the right air flow? I am in the process of reading Maximum Boost right now but I need to reread the turbine section a couple more times before I know what I am talking about ;) Reading comprehension was never my strong point!
Thanks for sitting through this brainstorm of mine and hopefully you guys can either steer me in the right direction without flaming me too hard :wackit:
Zac
Compressor Flow Map Calculator (http://lovehorsepower.com/joomla/index.php?option=com_content&view=article&id=35:compressor-flow-map-calculator&catid=8:mr2-helpful-stuff&Itemid=49)
I have been looking around at compressor maps from this page...
COMPRESSOR MAPS (http://turbocharged.com/catalog/compmaps/fig16.html)
And I think the TO4E "60" would be the best compressor for the job. It would keep me inside the 72% range and it stays inside the 80% range for a long time before dropping back down.
The next thing that has to be worried about it the turbine wheel would have to get up to speed quickly and then a good wastegate would have to keep the exhaust gasses in check for a very long time to keep the turbo from over spinning. I think this would be the Achilles Heal in this idea. Are wastegates reliable enough to do something like this without having to worry too much?
How do I size the turbine side of the compressor so that I can achieve the shaft RPM speeds necessary to keep the compressor at the right air flow? I am in the process of reading Maximum Boost right now but I need to reread the turbine section a couple more times before I know what I am talking about ;) Reading comprehension was never my strong point!
Thanks for sitting through this brainstorm of mine and hopefully you guys can either steer me in the right direction without flaming me too hard :wackit:
Zac