"I did read it from the beginning, but apparently forgot you wrote that. I do have 2 separate Lednicer articles, both of which include the 190. You may have both."
I don't. I only have the EAA Jan 1999 article. I didn't know there were two of them...
"Well, it talks about the wingloading, wing geometry, coefficients of lift, etc. What would engine cooling and prop effects have to do with the aerodynamic advantages of the smaller wing?"
The article mentioned above tells about modeling the whole airframe and in both Anton and Dora the cooling system is built around propeller spinner, where as in P51 and Spitfire the cooling drag is located differently. Since propeller can effect the stall characteristics the propeller probably has an effect on cooling drag too. IIRC some Antons (or Fs) were tested with cooling fans with more blades but while providing more cooling they also increased drag (IIRC that is). That may also give a clue of how much the propeller actually affected the cooling drag and thus the total drag of the airframe. I brought this up because I'm interested about the total drag figures of 190s.
But as I wrote earlier the venting of the cooling air is also one factor which needs to be considered to have a good idea of the actual cooling drag of a radial engine and Lednicher report does not offer any conclusion to that. It is just a calculation from a 3D model.
I brought this up before because I'm interested about the total drag figures of 190s and it would be interesting to calculate what would be its top speed in theory and what are the factors that would make it to exceed it or fail to achieve those figures. Being crappy with maths I only hope that somebody in addition to Mr Lednicher would provide such interesting analysis.
BTW if you look at the Figure 2 in article mentioned before it escapes me how the P51 and FW190 can have nearly identical Cl plots despite the radical difference in their airfoils, both NACA profile selection and in size? And what would they look like with different speeds and AoAs? That is what I'd like to see and that is what that article leaves totally open. I'm sure Mr Lednicher would have more data on the subject and trying to squeeze it all in a few pages in a magazine would be impossible so he had to use the space efficiently -resulting in an interesting article with little new to offer for enthusiasts like us.
-C+
PS. I have posted this earlier but maybe this is more appropriate place for it:
http://findarticles.com/p/articles/mi_qa3897/is_199808/ai_n8826530/pg_1PPS. Also notice that the trim drag is further reduced by the tailplane which moves as a whole reducing form drag.
