Here’s what I did. It took a lot of fiddling and fitting, but it worked out fine. I have some better pictures if you would like them. Kitlog is limited to three pictures per entry and turns the portrait images sideways into landscape mode.

alaskabearhawk Thank you Paul, it's helpful (and encouraging) to see that it can be done! Nice work as usual...

Here's what I did:
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There's a rubber baffle around the governor body to ensure a tight seal, which is held in place with a small blanking plate with nut plates installed on it.
In practice, you never need to remove the gasket without de-cowling first, I would use regular fasteners - nut plates are not necessary.

The O360 in my Patrol (fixed pitch prop) had no baffling around the front of the crankcase, so cooling air was entering at the front and diving down to exit below the engine before it had done any cooling work. The result was CHTs around 450 dF on climb out. Although this is below redline for Lycoming, it is well above what is best for engine longevity. The definition of max CHT is set by the FAA to be the highest temperature the factory could get without detonation or pre-ignition. So this has nothing to do with longevity. For Lycoming it is wise to set redline CHT at around 420 dF. For Continental it is about 400dF. (The metal and structure differs between the 2 engines.)

So now I have aluminum baffling very similar to the photos in this string. The rule of thumb is that the total of all leakage should be no more than roughly the size of an American quarter dollar coin. With the new baffling, my CHTs dropped by at least 30dF. I don't know why the original builder didn't baffle this area at all, cos it is huge air escaping. He did not have an engine monitor, so he would not have known the CHTs. I bought it with 70 hours, and he had only been pottering around the pattern, so I think the engine is still healthy. All the usual measures of engine health are really good - oil consumption, boroscope images, compression numbers, flight performance, etc.

What are my credentials for making these declarative statements? Two decades of very deep study (as a Mechanical Engineer) prompted by my Bonanza engine, which has had "problems". The Gurus on this subject are Mike Busch and the engine factory Gurus who present every year at Airventure Oshkosh. Oh, and never fly without an engine monitor! The JPI EDM 830 is an excellent choice, and factory support is very good.

Jim Herd
Minden, Nevada

Thanks to all who have chimed in! Guess I'm convinced it will be worth the effort to accomplish now. Update when I make some progress...

Cooling has always been a known issue with the -540 engines in Bearhawk aircraft, so this was a concern for me. It's possibly less important if you're installing a -360 engine, but better safe than sorry, especially if you find yourself in hotter climates or doing extended climbs.

Also, note that cooling drag is one of the larger sources of "reduceable" drag, if not entirely avoidable.

I was told a rule of thumb, if you can fit a pencil through a gap in the baffles, then the gap needs to be addressed. Solutions are either baffle metal, baffle rubber, or otherwise closed with RTV etc.

I have a 3" prop extension and was perplexed on how to seal the inlets to the boot cowl. Fortunately we have a Gold Lindy plans built winner in our EAA chapter whom I consulted with and copied what he did. His plane has round inlets and he did everything in aluminum, I used composites to achieve the same result. He has helped several members solve cooling issues so I knew I was getting good advise. He said if at all possible have your plenum area a rectangular shape with no dog legs as it is easier to get a good seal with the baffle material. So far I have been very happy with the result. My exit area is just the size of the tunnel, no additional cut out and no lip yet. My air inlets are sealed to the nose bowl with cut out bands of rubber from garden tractor inner tubes secured with safety wire. I have a very early version of the nose bowl from Avipro that I added composite flanges extending back from the inlets. It has not been very hot yet here so I may start running into cooling issues. Last week I departed Alamosa, CO at 85 deg and was surprised shortly into my climb needing to open the cowl flaps and decrease my climb rate. That was the first time I've used the cowl flaps since my first couple flights breaking in the engine. They are somewhat of a disappointment. My testing so far indicates they only decrease CHTs on average 9 deg F. Depending on how you installed your hinges for the cowling door, that is a source of cooling air loss. After I shut down I can see the hot air rising along the hinges. I will address that shortly with tape. Also at cruise one corner of my oil filler door lifts a little, I will start taping it down.

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