godlameroso wrote:Generator mode could cause compressor stall if your compressor is dependent on high rpm to deliver boost. This is because generator mode puts a drag and slows down both compressor and turbine.
Slow down a speed sensitive turbine which uses high rpms to create boost and you can stall it. More so if you no longer have ERS power to compensate for the inertia of the mgu-h. So while going full throttle down the straight you have no battery power to compensate for the drag the mgu-h places on the turbo while it's trying to harvest, add in a rpm sensitive compressor that needs high rpm and you slow it down with the mgu-h and you get a partially stalling compressor.
What are talking about won't happen in a centrifugal compressor. Your understanding is a bit off.
Let's first look at the MHU-H. The MGU-H is not either full output or full generator mode. The ERS computer will be able to control how much load is on the MGU-H when it is generating mode to control compressor rpm. Therefore by this logic regardless of what happens the compressor rpm will not slow enough to "stall" (which it cannot do btw).
Now let's look at the compressor itself. Let's assume the other condition can happen where the MGU-H can drag the compressor speed down (which it can't). As the compressor slows down it will not stall. All that will happen is that The pressure downstream of the turbocharger will reduce and that the ICE will generate less power.
Compressor stall is a result of to high pressure downstream of the turbocharger. This can result from shutting a throttle valve closed (if the throttle is downstream of the compressor), compressor wheel damage, a poorly designed compressor that is to "large" (using simple terms) for the ICE and creates to high a PR (pressure ratio) for the flow going through the ICE or a few other factors.
Last point I would assume that all the manufacturers leave enough power in the ES to run the MGU-H if needed. This leads me to a further question, are the ancillaries and ECU etc drawing power from the ES or do they have a separate battery?
So to finally close this argument I hope now you will understand why the compressor will not stall in the manner you describe.
*edit* you may get very momentary stall (fractions of a second) if the compressor speed reduces drastically very quickly, however definetly not like what you are describing at all.
