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#11
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In article ,
"John Carrier" writes: You've asked a Short Question with a Long Answer, I'm afraid. Peter, why do I suspect that when asked the time, you tell the inquirer how to build a watch? Evaluating airplane performance, especially from the stuff published in the Popular Press, is a tricky business. Big snip. In the mid '60s, wanting a higher performance Interceptor for Southern Florida, the USAF re-engined some of the F-104As with the J79-19 engine used on late model Phantoms. This had a non-afterburning Static Thrust of 11,900#, and an Afterburning Static Thrust of 17,900#. With that much power, the 750 KEAS airspeed limit was reached at all altitudes, from Sea Level on up, and the 250 Degree F limit was reached from 20,000' to the maximum ceiling of around 66,000'. The ceiling continuously increased from 51,00' at Mach o.9 to 66,000' at Mach 2.0. It could very easily have flown higher and faster, if the airframe limits were ignored. Nice try, but untrue. The 750 airframe limit was not a factor above about 40,000 feet ... it was not reached at "all altitudes." (BTW, airframe limit IS a factor ... was? ... for the SR-71 at intermediate altitudes.) Inlet temperature could be an issue at the extreme top end ... Skyburner F-4 had and Greenameyer's F-104 was to have inlet water injection ... but we're talking 2.5 plus here. John, where did I say that it was? Ah, never mind, I see where I didn't state it clearly. Sorry about that. I thought I'd mentioned that the F-104 flight limits were 750 KEAS or 250 Def F at teh compressor face, whichever came first. In the case of the -19 powered F-104A, it would run out to the 750 KEAS limit from Sea Level on up, and the 250 Deg F limit would be reached at anout 20,000', at about Mach 1.70. Obviously, you'd hold to whichever limit came first. From 20 Kft on up, the limit you'd run into first was the 250 Deg F limit. At 35,000', the 250 Drg F limit is about 650 KEAS. At 40,000', it's about 550 KEAS. at 50 Kft, it's about 450 KEAS. (BTW, the SR-71's Q (EAS) limit is fairly low, something like about 450 KEAS.) Sure- above the Tropopause, the temperature remains constant. and the 250 Deg F limit is reached at about Mach 2.0. If you've got a way to cool the inlet air as it's being compressed, such as the Pre-Compressor Cooling on the Skyburner F4H (Pre 1962, after all), or the similar Water Injection system that Darryl Greenameyer was going to use, then you can run out to a higher speed safely. As to "very easily flown higher and faster" the J-79 would experience burner blow out between 65-70,000 feet and the engines would have to be shut down approaching 75,000 because their minimum fuel flow settings would be too high and cause overtemp. (Greenameyer intended to modify the fuel control and use specially formulated fuel to allow the engine to run longer until shutdown required in his zoom climb.) That would be higher and faster at the same time - One very interesting bit from the F-104A (-19) engine's SAC Chart, Jun 1970, (If you need to see it, I'll be glad to E-mail you a copy) Is that the ceiling is increasing as it approaches Mach 2,0/66,000'. That's about 320 KEAS. As far as the engine is concerned, it's being delivered 320 Kt/Sea Level conditions from teh inlet. They sure seem to run O.K. in that range. Of course, if you're slower, it'll be a _lot_ different. But that's the point - With the -19 engines F-104A, it had the power to go a lot faster than its flight limits would allow. So it had the potential to, if you were ignoring the limits, deliver some astounding performance. There didn't seem to be that much problem with a J79 above 60 Kft - the B-58 on a high altitude bomb run at Mach 2.0 would be over the target at 64,000'. The Rutkowski trajectory for the F-4 and F-104 zoom climbs is fairly similar - Take off, Accelerate to Mach 0.9, climb at Mach 0.9 t0 a bit above 36,000' (The Tropopause, where the margin of Thrust over Drag will be greates, enter a slight descent to get through the transonic drag rise quickly, accelerate out at 36,000' to however fast you can go, then a 2G pull to straight up and maintain 90 degrees nose high. The airplane will be decelerateing from that point on, and at 60-70,000' will be flying at a rather low EAS - somewhere arount 100 KT EAS wouldn't be too out of line. To simplify your response, most older designs had high mach as a primary design goal and thrust/drag created large PsubS "bubbles" past the transonic drag rise region (F-104 a prime example, original F-14B ... glove vanes and inlet scheduling intact ... another). That excess power in the 1.4-1.6 region (usually, SR-71 was much higher) allowed higher service ceilings while supersonic. That's true - Speed was everything in the '50s, and they found that with proper inlet design, they could maintain a sufficient thrust margin to get the airplane up to some big mach number. Let's not forget too, that Ps is Specefic Excess Acceleration * True Airspeed, either - the faster you're going, the less excess thrust you'll need for a given Rate of Climb. Current design emphasis is on subsonic performance with high Q (indicated airspeed) but not usually high mach as a bonus of their high thrust/weight ratios. No large PsubS gains once above transonic drag rise. Ergo no improvement in service ceiling supersonic. Right. Thanks for pointing out my poor wording, above - It seems that we were talking about the same thing, I just expressed it poorly. -- Pete Stickney A strong conviction that something must be done is the parent of many bad measures. -- Daniel Webster |
#12
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In article ,
"John Carrier" writes: You've asked a Short Question with a Long Answer, I'm afraid. Peter, why do I suspect that when asked the time, you tell the inquirer how to build a watch? Nah. I just show them how to build a sundial. -- Pete Stickney A strong conviction that something must be done is the parent of many bad measures. -- Daniel Webster |
#13
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Peter Stickney wrote:
In article , "John Carrier" writes: snip As to "very easily flown higher and faster" the J-79 would experience burner blow out between 65-70,000 feet and the engines would have to be shut down approaching 75,000 because their minimum fuel flow settings would be too high and cause overtemp. (Greenameyer intended to modify the fuel control and use specially formulated fuel to allow the engine to run longer until shutdown required in his zoom climb.) That would be higher and faster at the same time - One very interesting bit from the F-104A (-19) engine's SAC Chart, Jun 1970, (If you need to see it, I'll be glad to E-mail you a copy) Is that the ceiling is increasing as it approaches Mach 2,0/66,000'. That's about 320 KEAS. As far as the engine is concerned, it's being delivered 320 Kt/Sea Level conditions from teh inlet. They sure seem to run O.K. in that range. Of course, if you're slower, it'll be a _lot_ different. But that's the point - With the -19 engines F-104A, it had the power to go a lot faster than its flight limits would allow. So it had the potential to, if you were ignoring the limits, deliver some astounding performance. There didn't seem to be that much problem with a J79 above 60 Kft - the B-58 on a high altitude bomb run at Mach 2.0 would be over the target at 64,000'. Walt Bjorneby must be busy, or I'm sure by now he'd have mentioned his cruising in his F-104A w/-19 from Tyndall to Homestead at M2.0 and FL730 (he'd filed IFR at 1,120 KTAS and that altitude). I believe he said he was using about 3/4 AB and burning 6,000 pph. Guy |
#14
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is there a formula or chart for figuring KEAS?
-- Curiosity killed the cat, and I'm gonna find out why! "Guy Alcala" wrote in message . .. Peter Stickney wrote: In article , "John Carrier" writes: snip As to "very easily flown higher and faster" the J-79 would experience burner blow out between 65-70,000 feet and the engines would have to be shut down approaching 75,000 because their minimum fuel flow settings would be too high and cause overtemp. (Greenameyer intended to modify the fuel control and use specially formulated fuel to allow the engine to run longer until shutdown required in his zoom climb.) That would be higher and faster at the same time - One very interesting bit from the F-104A (-19) engine's SAC Chart, Jun 1970, (If you need to see it, I'll be glad to E-mail you a copy) Is that the ceiling is increasing as it approaches Mach 2,0/66,000'. That's about 320 KEAS. As far as the engine is concerned, it's being delivered 320 Kt/Sea Level conditions from teh inlet. They sure seem to run O.K. in that range. Of course, if you're slower, it'll be a _lot_ different. But that's the point - With the -19 engines F-104A, it had the power to go a lot faster than its flight limits would allow. So it had the potential to, if you were ignoring the limits, deliver some astounding performance. There didn't seem to be that much problem with a J79 above 60 Kft - the B-58 on a high altitude bomb run at Mach 2.0 would be over the target at 64,000'. Walt Bjorneby must be busy, or I'm sure by now he'd have mentioned his cruising in his F-104A w/-19 from Tyndall to Homestead at M2.0 and FL730 (he'd filed IFR at 1,120 KTAS and that altitude). I believe he said he was using about 3/4 AB and burning 6,000 pph. Guy |
#15
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"Boomer" wrote...
is there a formula or chart for figuring KEAS? IIRC, it is airplane-specific due to Pitot probe and static port positioning, among other factors. |
#16
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Boomer wrote:
is there a formula or chart for figuring KEAS? Try this, although I imagine Pete S. has a chart that makes it easier: http://www.mathpages.com/home/kmath282/kmath282.htm Guy |
#17
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GOSH , I sure hope so lol.
thank you. -- Curiosity killed the cat, and I'm gonna find out why! "Guy Alcala" wrote in message . .. Boomer wrote: is there a formula or chart for figuring KEAS? Try this, although I imagine Pete S. has a chart that makes it easier: http://www.mathpages.com/home/kmath282/kmath282.htm Guy |
#18
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1) Well, here I am again, home from reunions of the 25FIS/F86F/D and
the 319FIS/F104A. 2)One thing about charts - check where they came from. If from the official flight manual, they're probably (not always) on the money. If from a commercial pub, take them with large grains of salt. I'm reminded of the posters sitting in front of display airplanes citing such numbers as Mach 2, 2000 mile range max load 24000 pounds. Those numbers may be true, just only not all at once. 3) 104 high cruise: Paul Martino and I did fly from Tyndall to Homestead at M2.0 and 73000 in somewhat reduced AB. 73000 was selected because of IFR altitudes - I just wanted to make FAA happy. I found we could cruise at M2.0 and about 315 IAS - 315 to approximate best L/D for the 104A. (If Paul does come through as he said he would and sends me a copy of the DD175 flight clearance form I'll post it for y'all.) 4) Zoom: I kick myself now for not further exploring the 104/-19's envelope. The only zoom climbs I did were with the 3b engine. Our technique was to run out to M2.0 at the tropopause (38-43000 usually, at latitude 25N.) Once at speed, I'd do a smooth 3-4G rotation to 45 nose high. Note that the aircraft did not lose a knot of airspeed during this maneuver. I'd stabilize at 45 nose high and keep going up until the airspeed neared stall - around 220IAS. Then I would slowly nose over until at low G approximating 1/10G (Guesstimate). The IAS 'over the top' would be around 100-125 KIAS. Note that at that IAS the aircraft did not stall because the AOA was still 'flying'. I never had an overtemp nor a blowout but then I flew the aircraft very gently up there. Any hamfistedness will most likely result in a duct stall and flameout. Since the standard USAF three-needle altimeter has a mechanical stop at about 86000 I have no idea what altitude was actually attained but in every case except the introductory 75K zoom when I was in combat crew training mission 86000 was well exceeded. 5) Lockheed's SURE publication indicated thrust crossed drag at about 2.36 - with the 3b engine! That crossover point with the Dash 19 would be well over the heat limits for the airframe and canopy. 6) One of my squadron commanders once said "All the posted limits are the maker's way of saying their guarantee doesn't cover anything past them." I think most fighter pilots think the same way. If you need more to get the job done, and it's there, use it. Here's where the smart pilots (in all airplanes) make decisions based on priority - if the choice is bend the bird versus bust your ass - screw the limits. Walt BJ |
#19
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KEAS = KTAS * sqrt(sigma)
KEAS = knots equivalent airspeed KTAS = knots true airspeed sigma = density of the air that the plane is flying through, relative to standard sea level density. For example, if you're flying through air half as dense as sea level air, sigma = .5. The square root of sigma = .71 (approx.), so KEAS is about 71% of KTAS at that altitude. Sigma can be gotten from an online calculator or table. Enter "standard atmosphere" in a search engine and several of these will show up. The traditional E-6B pilot's circular slide rule ("whiz wheel") automatically takes care of the square root of sigma. You simply set altitude on an auxiliary scale. That makes EAS on the inner main scale correspond to TAS on the outer scale. -- Paul Hirose To reply by email delete INVALID from address. |
#20
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On Sun, 16 May 2004 02:16:31 -0500, "Boomer"
wrote: is there a formula or chart for figuring KEAS? There sure is. I just don't know it off the top of my head and my books are still packed. The USAF Test Pilot School texts are available somewhere on the Web, though. You may be able to find them by googling. Mary -- Mary Shafer Retired aerospace research engineer |
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