Honestly, I dont think that part is actually a part of the speed curve...if it was it would mean that there would be multiple top speeds at a given altitude with the same conditions. Could be wrong though.
Yep, but what does it mean? That they skipped straight to that altitude during the trial? That's my guess but I'm asking in case anyone can think of a better explanation. The AH 152 has a similar cleft in its speed curve.
The jagged curves look as if they'd run at two different GM1 settings, but why would they do that when max speed is the goal? It would make the top GM1 curve peak at 472 TAS, if it was extended to 11.5 km. That does match another quoted top speed ("472 MPH"), but I haven't seen that one in an actual book. And it would equate to a little over 500 TAS at that altitude (11.5 km) if you go by the relative sea level speeds at MIL and 1.92+MW50.
The
above Focke-Wulf speed trial made on Jan. 12th '45 translates as:
So this shows a speed trial using a Ta 152H-1 with the same engine as ours, same RPM settings, with MW-50 and GM-1 used,
but with the airplane carefully prepared for high speed, and with the engine running at 1.92 ata; except for the GM1 section above 11.5kft where it's at regular MIL power (which'd be consistent with the operational report of 500+ mph top speed by Hagedorn of 9./JG301 in early '45).
This differs from the AH 152: Ours isn't prepped for high speed trial and runs at only 1.8 ata.
Widewing ran the AH 152 (at 25% fuel) and got the below points in blue from the E6B (at 5kft intervals). Getting rid of that fuel difference (50% internal as in the 1945 trial) gives three extra speed points at three altitudes that stand out on the historical chart (9.5, 11.2, 12.5km = 31, 36.7, 41 kft):
There's a dent at 11.2 km. At 9.5 and 12.5 km there's no difference (+-1mph, within error margin) with WW's test. But the dent at 11.2 km does show that it's not just a simple recession after FTH, which kills any hypothesis based on GM1 not being modeled.
So what, then?
1) The official speed chart doesn't match what actually happens in the game. No biggie, but worth pointing out.
2) 32,000 ft is the engine's FTH, but why is that the AH 152's best speed when GM1 is modeled? GM1 could be used at three levels: 60, 100, and 150 grams/second. Is the AH 152 running at less than full GM1? Would that be because it wasn't cleared for 150g/sec (kind of like the K4 running at only 1.8 ata despite documents showing it was later cleared for 1.98)?
3) How is the AH 152, with more drag and less power, out-running the 1.92 ata speed-prep'd 1945 Ta152 at sea level and 32,000 ft? GM1 only comes on above ~37,000 ft.
3b) Was the Ta152H1's WEP ("Sonder Notleistung") 1.8 or 1.92 ata?
4) There's no top speed data (that I know of) for 1.92 ata + GM1, except for the nearest
anecdotical data point: Hagedorn's report that a Focke-Wulf engineer confirmed he'd broken 500 TAS (">810kph") at 43,000 ft. It's just an anecdote, but it does get along with all the other historical practical and anecdotical data that doesn't exactly match AH. We can take this lead further but I'm out of time right now.
This is
that german drag chart with just about everything but some of the symbols translated. If anyone knows what the math symbols mean, please share.
Does anyone know good sources for WWII german aircraft engine data?
Oh yeah, and if this gets the 152 FM revised to a lower speed (as if the 152 needed even more handicap), you know who to blame
