Some thoughts I have on the use of a waste-gate or not.
The number one reason F1 is building a turbo charge engine with a MGUH unit is to use all the energy they can from the turbine. Part of the energy is going to be used to drive the compressor so they can't do much about that other then make the turbo as efficient as possible. Now to extract as much energy as they can from the turbine they will have to run a larger then normal turbine housing and turbine wheel. This gives them more flow through the turbine and less through the waste-gate.
So were talking a very small percent that will be waste-gated (or none) and dumped. Also all the releases they have shown, do show a very large turbine for just a little 1.6L that will make its living around 10500 rpm.
If you enter some values into BG Match Bot and play with the larger turbine sizes you will see for yourselves there really isn't any extra exhaust flow to dump out the waste-gate. Also notice the great EMP numbers and delt p running a larger turbine.
Plus play with the rpm range and you will see as rpm increases boost will have to decrease, do to the F1 fuel rule.
So you have the conventional way of decreasing boost open the gate and lose valuable exhaust energy or you can load the turbine via. MGUH and this will move the plot more to the right on the phi curve where it needs to be because of the larger turbine being used. The conventional way using a waste-gate will keep about where its at on the phi plot during lower rpm and higher boost and higher rpm and lower boost.
Here's a preset value 2014 F1engine that I did so you don't have to enter engine size and fuel limit (220lbs/hr) Use the 10500 rpm column(plot 6). Keep mind the first one is a normal turbine size that i used as a starting point. Then go much larger from there.
Edit: Here's a second link that I think will be more like the turbine they will be using.
http://www.turbodriven.com//performance ... rsin=92044&
http://www.turbodriven.com//performance ... rsin=92044&
