I was thinking more of the Mosquito and other later air cooled engines which had the oil cooler inlet in the leading edge.
On the Meredith Effect
- Thread starter maxmwill
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- #22
I realize that. And yes, it is a lot more complicated than that, especially in practice. You could call my approach to this more of a cocktail napkin guesstimate than anything more educated than that.
The radiator for this wouldn't be all that difficult to design, just take a page from Germany with the annular radiators, but it'd still be quite the bear to wrestle, from the intake type, to the radiator, to the entire plumbing arrangement.
And, upon further reflection, perhaps a full size replica of a Do-26, re-designed for a set of turboprops, and plying the Carribean might be a more realistic endeavor for consideration. Be kinda interesting if a water taxi service using such a replica were to be started up.
The radiator for this wouldn't be all that difficult to design, just take a page from Germany with the annular radiators, but it'd still be quite the bear to wrestle, from the intake type, to the radiator, to the entire plumbing arrangement.
And, upon further reflection, perhaps a full size replica of a Do-26, re-designed for a set of turboprops, and plying the Carribean might be a more realistic endeavor for consideration. Be kinda interesting if a water taxi service using such a replica were to be started up.
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- #23
No, the 232 was to have a full span slot.
Have a dumb question: If I can get my wife's scanner/printer/copier running, could I scan and post things here, such as a 3 view of the Type 232, along with its background, straight from the book? Or would I have to get prior permission from the mods here? I've found a lot of stuff, such as the Type 232, which are not on the internet, and I'd like to share it.
Are we discussing evaporative cooling which was never used in practice?
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- #25
MACHIA
Airman
The P-40 inlet/outlet design was high drag . What was the error there ?
Shortround6
Major General
Was it?
The plane went considerably faster with the "chin" radiator than when they had the radiator in a Hurricane position. There were at least two attempts to change the radiator after that.
An experimental P-40F
the XP-40K
Now please note that by the time they were finished with the P-40Q the radiators were outboard of the landing gear and the oil cooler was back in the nose.
No performance figures seem to be commonly available for these experimental aircraft. Curtiss (and the Army) may not have been happy with the P-40s radiator but they don't seem to have been able to improve on it enough to warrant a change in production?
Great post, for me it shows how difficult it is making major changes after a design is in production.
Bottlehead
Airman
- 14
- Aug 30, 2013
I think you have to look at the patents covered by TP de Paravicini under GB entries. He covered aircintake on wing edges as well as the chin and or underbelly housing. All were in the 1936-8 period. He covered air cooled as well as liquid cooled engines.
Both the Spitfire and the 109 (the F in particular) attempted to make use of the Meredith effect but in both cases failed due to the stalling of the inlet duct at high speed. Lee Atwood was of the opinion that this was likely due to the duct system being forced into too small of the available volume in the respective wings making the duct diverge too quickly.
Bottlehead
Airman
- 14
- Aug 30, 2013
See patent GB472555,& GB472334A
Any particular reason?
The XP-40 was much worse than the production models. It managed a top speed of only 315 mph which is 3 mph slower than the P-36's (some sources say 335 mph however). When they repositioned the radiator forward into a chin position top speed went up to around 352 by the P-40B.
Bottlehead
Airman
- 14
- Aug 30, 2013
Yes. It was TO de Paravicini who rightfully should be credit with negative drag. As he was at the Farnborough Aircraft establishment when he write the original paper. Metedith was a fellow engineer.
But de Paravicini had the better math skills to prove it.
There are several patents in his name as to cooling and exhaust ejectors for improving aircraft.
He was hired as the youngest member of the Royal Aeronautical Society to help Rowledge the senior engineer at Rolls Royce.
Yes you told me that before, can you give me something to read and not just tell me there is interesting stuff to read if only I knew the link.
Bottlehead
Airman
- 14
- Aug 30, 2013
Merely that History gets edited and sometimes the rightful attributes get rubbed out.
Hence trying to get credit where it is due.
Studying the patents gives you an insight as to how negative drag works and how aircraft adapted the methods.
Some of his papers are in the Royal institution and I don't have access to them.
You could of course give your take on what you read but don't have access to. I know how reduction of cooling drag works.
Here is one patent showing the cooling system and I know that my uncle's patents from Rolls Royce were licenced to the Germans before WW2 in 1937 period.
Espacenet - Bibliographic data
Espacenet - Bibliographic data
