Author Topic: Vermillion, here is my wing loading info  (Read 623 times)

Offline Karnak

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Vermillion, here is my wing loading info
« on: October 22, 2001, 05:10:00 AM »
Here is a sampling of the wing loading figures that I am using. If you see anything that is wrong please tell me.

Mosquito FB.VI Series 2
Wing Area: 454 sq ft
Empty: 31.5 lbs per sq ft
Typical: 42.95 lbs per sq ft
Maximum: 49.12 lbs per sq ft

Bf109G-6
Wing Area: 173.3 sq ft
Empty: 34 lbs per sq ft
Typical: 40.05 lbs per sq ft
Maximum: 43.25 lbs per sq ft

Bf110C-4
Wing Area: 413.3 sq ft
Empty: 27.71 lbs per sq ft
Maximum: 36.01 lbs per sq ft

Fw190A-8
Wing Area: 197 sq ft
Empty: 35.53 lbs per sq ft
Maximum: 54.83 lbs per sq ft

Ju88C-6c
Wing Area: 586.65 sq ft
Empty: 34.05 lbs per sq ft
Typical: 46.41 lbs per sq ft

Me410A-1/U2
Wing Area: 389.69 sq ft
Empty: 45.16 lbs per sq ft
Typical: 63.57 lbs per sq ft

A-26B-15 Invader
Wing Area: 540 sq ft
Empty: 41.43 lbs per sq ft
Maximum: 64.81 lbs per sq ft

F6F-5 Hellcat
Wing Area: 334 sq ft
Empty: 27.66 lbs per sq ft
Maximum: 46.15 lbs per sq ft

P-38L Lightning
Wing Area: 328 sq ft
Empty: 39.02 lbs per sq ft
Typical: 63.11 lbs per sq ft
Maximum: 65.85 lbs per sq ft

P-47D-25 Thunderbolt
Wing Area: 300 sq ft
Empty: 33.17 lbs per sq ft
Maximium: 58.34 lbs per sq ft

P-51D Mustang
Wing Area: 235 sq ft
Empty: 32.49 lbs per sq ft
Typical: 51.49 lbs per sq ft

A6M5c Reisen
Wing Area: 229.27 sq ft
Empty: 18.04 lbs per sq ft
Maximium: 26.28 lbs per sq ft

N1K2-J Shiden-Kai
Wing Area: 253 sq ft
Empty: 23.15 lbs per sq ft
Typical: 34.85 lbs per sq ft
Maximium: 43.25 lbs per sq ft

C.202 Folgore
Wing Area: 180.83 sq ft
Empty: 30.66 lbs per sq ft
Typical: 35.72 lbs per sq ft
Maximium: 37.43 lbs per sq ft

La-5FN
Wing Area: 189.34 sq ft
Empty: 32.6 lbs per sq ft
Typical: 39.12 lbs per sq ft

Hurricane MkIIc
Wing Area: 258 sq ft
Empty: 21.93 lbs per sq ft
Maximium: 31.18 lbs per sq ft

Spitfire MkXIVe
Wing Area: 244 sq ft
Empty: 27.05 lbs per sq ft
Typical: 34.25 lbs per sq ft
Maximum: 40.05 lbs per sq ft

Typhoon MkIb
Wing Area: 279 sq ft
Empty: 31.54 lbs per sq ft
Maximum: 47.49 lbs per sq ft
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Offline F4UDOA

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Vermillion, here is my wing loading info
« Reply #1 on: October 22, 2001, 09:11:00 AM »
Karnak,

Interesting.

What are you using them for?

Offline Karnak

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Vermillion, here is my wing loading info
« Reply #2 on: October 22, 2001, 02:32:00 PM »
I only use it to get an idea of how well an aircraft might turn.

Verm and I were talking about it at the Con.  He was saying that he doubted the Mossie's turn rate was correct and that the real indicating factor was wing loading while empty.

Thus this post.
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Offline janjan

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Vermillion, here is my wing loading info
« Reply #3 on: October 23, 2001, 03:39:00 AM »
What makes p38 to turn so good with this high wingloading?

Old fashioned wing profile maybe?

Offline F4UDOA

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Vermillion, here is my wing loading info
« Reply #4 on: October 23, 2001, 09:23:00 AM »
Karnak,

Yes wingloading is a good indicator of turn ability. Careful with empty wingloading though. Depending on what source you read empty may be without oil, water, coolant or the pilot. I prefer to use the combat loadout. However you need to adjust for range. For instance a P-47 certainly handles better without max fuel and still has more endurance than most WW2 fighters. So a P-47 with 50% fuel is about the same as some others with 100%.

The P-38 turns resonably well because of it's high aspect ratio wing(Widewing span vrs short wing cord ratio). It creates high lift with low induced drag. This compensates for horrible wing loading although I will never understand the claims of incredible turn performance with the bird. The trade off for high aspect ratio is poor aileron response and roll performance. IE. a F-15 vrs a U-2.

Offline Karnak

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Vermillion, here is my wing loading info
« Reply #5 on: October 23, 2001, 12:50:00 PM »
F4UDOA,

Yes, I was only using the typical and maximum take off figures.  Verm was telling me that the real indicator was the empty number. That's why I included it here, I've never even calculated it before compiling this list.
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Offline F4UDOA

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Vermillion, here is my wing loading info
« Reply #6 on: October 23, 2001, 02:16:00 PM »
Interesting,

I'm curious as to why he uses the empty wing loading?

Verm,

You out there?

Offline Mitsu

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Vermillion, here is my wing loading info
« Reply #7 on: October 23, 2001, 02:20:00 PM »
Quote
Originally posted by F4UDOA:
The P-38 turns resonably well because of it's high aspect ratio wing(Widewing span vrs short wing cord ratio). It creates high lift with low induced drag. This compensates for horrible wing loading although I will never understand the claims of incredible turn performance with the bird. The trade off for high aspect ratio is poor aileron response and roll performance. IE. a F-15 vrs a U-2.

It's the same in Ki-61, Ki-100 and Ta-152 too.

Mitsu

Offline HoHun

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Vermillion, here is my wing loading info
« Reply #8 on: October 23, 2001, 03:23:00 PM »
Hi Karnak,

>I only use it to get an idea of how well an aircraft might turn.

Turning ability depends on many factors.

In high-speed turns (above corner speed), the limiting factor is the structural strength of the airframe. A higher wing-loaded aircraft can turn better than a lower wing-loaded one at the same high speed if it is able to withstand higher forces.

In low-speed sustained turns (below corner speed), the limiting factor is power versus drag. A plane with higher wing loading can turn better than a plane with lower wing loading if it has less overall drag, or more power. (The difference of power and drag in relation to the aircraft's mass is called "specific excess power" or short "Ps".)

In low-speed instantaneous turns (at and below corner speed), it's the relation between maximum available lift and aircraft mass that determines which aircraft is going to turn better. This is where wing loading comes into play - but it's a coarse simplification as at the same wing loading, different profiles will yield different maximum lift forces.

Since subvariants of one aircraft type usually feature the same wing profile, you can use wing loading to compare their instantaneous turning ability, but comparing different aircraft types, the results are much less accurate. Even with subvariants of a single aircraft type, the later, heavier and more powerful variant could end up with a poorer instantaneous, but a better sustained turn. Why? The increase in wing loading might be compensated for by a decrease in power loading.

In short, the actual wing loading figure is not as helpful in determining turn performance as one might think at first.


Regards,

Henning (HoHun)

Offline funkedup

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Vermillion, here is my wing loading info
« Reply #9 on: October 23, 2001, 03:59:00 PM »
Hohun's examples are true.  But all other things being equal, a plane with lower wingloading can turn in tighter and faster circles than a plane with higher wingloading.

Wingloading plays a big part in determing stall speed and thus minimum turning radius.  

It's also a big player in the equations for induced drag.  Higher wingloading requires higher lift coefficient to execute a given maneuver.  Induced drag increases with the square of lift coefficient.  Differences in induced drag are largely responsible for what flight simmers call "E-retention".

W is weight, S is wing area.  W/S is wingloading.  Basically all of the equations for things that you want to be small for good turning performance have powers of W in the numerator and powers of S in the denominator.

[ 10-23-2001: Message edited by: funkedup ]

Offline Vermillion

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Vermillion, here is my wing loading info
« Reply #10 on: October 23, 2001, 04:16:00 PM »
I agree with both HoHun and Funked.  

My point in my talks with Karnak is that wingloading is a general indicator of sustained turning ability, but I agree its not an absolute.

What we were trying to do, is without a large cache of flight test data and spending a large amount of time doing calculations, how could we do a "quick and dirty" test on the Mosquito to see if its turning ability falls into the general range we would expect it too. (Remember we were at the CON, and I was drunk and didn't figure on spending hours doing flight testing  :p Plus none of us had our aviation libraries)

My idea was to look at wingloading for several aircraft and the Mosquito, do some quick and dirty 360 degree turn time tests (maybe 5 times averaged) for each and then see if the results were generally believeable.

We weren't trying to absolutely validate the FM  :)

My reasoning that "empty weight" is more appropriate than "fully loaded weight" is that fully loaded weight (ie 100% fuel) artifically penalizes the aircraft designed for long range flight.

You can take two planes that are the same general size, weight, and ability empty, but your tests will artifically show the long range aircraft inferior.

If you want to take this "theory" of comparison to AH, I think it would be best to calculate the %25 fuel load weight and go from there.

True this is not without its own problems, but since fuel loads are so variable in the arena, this would be the most representative for the kind of tests we were discussing.

Karnak, I haven't had time to look at your numbers yet, I've been really busy since I got home from Dallas.

Offline HoHun

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Vermillion, here is my wing loading info
« Reply #11 on: October 23, 2001, 06:27:00 PM »
Hi Funked,

>Hohun's examples are true. But all other things being equal, a plane with lower wingloading can turn in tighter and faster circles than a plane with higher wingloading.

Assuming the aircraft in Karnak's list to be equal in all other things would be just the "coarse simplification" I mentioned :-)

>Wingloading plays a big part in determing stall speed and thus minimum turning radius.

It would be more logical to use stall speed iself as key parameter instead of wing loading which neglects airfoil properties.

Wing loading can be useful for rule-of-thumb comparisons, but if you don't keep their limitations in mind, you'll arrive at wrong conclusions. (Applying it indifferently to sustained turns is the most popular error.)

Regards,

Henning (HoHun)

Offline HoHun

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Vermillion, here is my wing loading info
« Reply #12 on: October 23, 2001, 06:47:00 PM »
Hi Vermillion,

>My point in my talks with Karnak is that wingloading is a general indicator of sustained turning ability, but I agree its not an absolute.

It's actually a general indicator for instantaneous turns.

For sustained turns, you could try to combine climb rate with stall speed :-)

Seriously, climb rate is the Ps figure for 1 G flight, and the quotient of climb rate and square root of 1 G power-off stall speed might actually be a better indicator of sustained turning ability than wing loading.

(The square root calculation serves to coarsely take into account that sustained turns usually are flown at perhaps 2 G.)

That's no proven procedure, but I'd be interested how the aircraft listed by Karnak rank by this criterium, anyhow :-)

Regards,

Henning (HoHun)

Offline funkedup

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Vermillion, here is my wing loading info
« Reply #13 on: October 23, 2001, 11:16:00 PM »
HoHun is right.   :)

Offline gripen

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Vermillion, here is my wing loading info
« Reply #14 on: October 24, 2001, 04:03:00 AM »
Yeah, HoHun is mostly right but it should be noted that structural strenght is not allways limiting factor at high speed turns because compressebility constrains maneuverability specially at high altitudes. Forexample the P-38 could not do more than a bit over 3g turns at 30k at any speed while the Vampire could turn at 5g at 30k. This is because new high speed profiles sustained compressebility better. I don't know if this is modeled in the AH.

gripen