Ok,
Normally aspirated 4AGE on ITBs, mild cams.
Currently mapped on AlphaN 0-8500rpm.
Pressure correction DOES NOT seem to work since successive street runs between motorway intersections
into a head wind/with following wind, whos varying air fuel ratios.
Example of problem:
East to west, tune for stoich
West to east, runs lean, retune for stoich, (headwind = supercharging)
East to west, runs rich, retune for stoich (tailwind so we run rich)
West to east, runs lean. (headwind again)
Cycle repeats.
Barometric correction in engine bay not working.
Would using a MAF sensor allow one to distinguish load between 25 and 100% throttle?
With MAP and AlphaN/SDblending, 25% throttle and 100% throttle both read 100kpa so tuning is impossible.
And as mentioned, the supercharging effects of driving at speed arent being factored by VEMS?
Update: VEMS DOES NOT SUPORT MAF SENSORS:
Is MAF the solution?
Surely 25% throttle will less air than 100% throttle?
Can vems run AlphaN with MAF correction or something?
At speed the increased airflow WOULD be detected by the MAF fixing this east-west-east pressure/airflow issue.
Would using velocity stack into the pressure sensor work?
Another idea:
Map engine on a dyno for AlphaN only.
With no massive 100mph airflow (except cooling fans) we would get a fuel table and spark table for when the engine is underload without high speed supercharging effects.
Remap the car on the road and we will get, I suspect, same fuelling but different spark and lamda.
Can the differences in ve/spark and lambda table be used to improve VEMS algorithms to support corrections?
Note: Speed would be a cheating way of doing this as it would be a related to the pressure increase.
If we are at speed on an oval circuit or between motorway junctions, the pressure IS different!
Another symptom of the alpha N limitation is that on a dyno the car runs INCREDIBLY rich since there
is no increased airflow as when is was street mapped, so no idea of what power the car is making :-(