Turbo selection
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In order to understand a compressor map this diagram is posted by Garrett:- | In order to understand a compressor map this diagram is posted by Garrett:- | ||
− | + | http://i160.photobucket.com/albums/t187/diceman200/compressor%20maps/Compressormapexplained.gif | |
− | This graph comes from an MR2 forum and provides | + | This graph comes from an MR2 forum and provides some guidance on what figures are actually achieved on a Dyno Dynamics rolling road:- |
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+ | [[Category:Performance modification|Turbo Selection]] |
Latest revision as of 22:42, 1 February 2012
Well, It looks like it is back to turbo selection time for me. Hence I have pulled out some of my old 3sgte airflow predictions on turbo compressor maps.
I will try and formalise this over time so if anyone has any comments on engine VE or the basic method I used for airflow predictions please feel free to comment. If there are any particular turbos that I have missed let em know and I will try and add to the list.
There are some quite major items I have previously ignored in order to get a rough idea:- 1) Compressor efficiencies - these vary for each turbo - between 75% to 80% and will effect charge temps. 2) Turbine side efficiency and matching - trying to cross reference between the shaft speeds etc started to make my head hurt. 3) Engien VE varies over RPM/Boost - 4) Intercooling efficiency
I have seen some really nice calc sheets about that try and take into account most of the above but unfortunately I have never found one that actually produces realistic figures!
In order to understand a compressor map this diagram is posted by Garrett:-
This graph comes from an MR2 forum and provides some guidance on what figures are actually achieved on a Dyno Dynamics rolling road:-