The 'engine accesories' (auxiliary supercharger and intercoolers?) weight 300+ lbs in F6F, that item was missing from the single stage Vulture. The weight of cooling system depends much of the execution, the 350 lbs cooling system of the P-36 was able to cool the engine developing 90% of Vulture's power.
The weight of the auxiliary supercharger is included in the 2480lbs of the R-2800 two stage, the Single stage weighed 2360lb but you are right about the inter-coolers. What cooling system in a P-36?
If you meant P-63 then you have to include the water injection system (50lbs) plus the weight of the fluid (186lbs for 25 gallons).
At 15000 ft that would be 1300 HP for the Merlin XX? If Vulture's power does not look good, how good is Sabre then?
Not good for an escort fighter. And depends on the Sabre, IIA were running at 3700rpm and 9lbs boost while IIBs were running 3850rpm and 11lb boost. IIA was 1830 at 11,500ft while the IIB was 2050 at 13,750 but the II B was a little late in the game.
What would a
production Sabre have been good for in 1942/43 as an escort fighter and a critical altitude of under 12,000ft doesn't look good.
What planes are in the comparison?
What ones do you want? It was a hypothetical. If the 109 can do 400mph trying to use an escort fighter than can only do 360-370 isn't going to be real successful, especially if the 109 can out climb it. The escort fighter HAS to be able to equal the defender at something ( or come within a couple of percent, 10% is way to much) even if not so good at something else.
Service ceiling for Typhoon was 33-34000 ft, for Tempest V (the one with same engine, Sabre IIA) was 35-36000 ft, depending on load. The wing area of Tempest was some 10% greater than Typhoon's.
The service ceilings are too low. Nobody is fighting at 34-36,000 but those are the altitudes the plane can fly pretty much straight and level and if really lucky, with one other airplane.
In a book from the R-R Heritage trust there is a chart for the 109E, Hurricane I, Hurricane II and Spitfire I. with a few performance figures at high altitudes. It is this kind of thinking that shaped western combat.
AIrcraft...............service ceiling............oper.ceiling........time to op ceiling......rate of climb/30,000ft.......time to 30,0000ft...........rate of climb 25,000ft.............time to 25,000ft
Bf109E...................35,200ft.....................31,900ft............20min, 23sec..............740fpm........................17min, 12 sec.................1340fpm.............................11min, 39sec
Hurricane I..............35,000ft.....................31,400ft............21min, 15 sec.............660fpm........................17min, 30 sec.................1260fpm.............................13min, 12sec
Hurricane II.............37,600ft.....................34,900ft............19min, 57sec.............1160fpm........................13min, 20sec..................1840fpm............................. 9min, 48 sec
Spitfire I.................37,400ft.....................34,000ft............21min, 33sec.............1020fpm........................15min, 42sec..................1660fpm.............................11min, 33 sec.
Operational ceiling is where they can climb at 500fpm. (and is about what a good 40hp piper cub can do at sea level) and is what is need for a margin of power to maintain
small formations. Please note that while the Hurricane I and II are only about 2600ft apart in 'service ceiling' the actual capabilities of the two planes are much further apart. At 25,000ft the MK II is climbing about 3 ft for every 2ft the MK I does. and at 30,000ft it can climb 75% faster.
Test conditions are not really given but I hope this brings out the point about "service ceilings" It is a nice comparison but in actual fact the planes were fighting 3-6,000ft below their service ceilings in order to be effective. It may also bring home why the P-40 with a service ceiling of 29,000ft or so was judged to be pretty much out of the running for the European theater.