Skippydiesel wrote:
Where would you place the holes -Rear of upper cowling ?
Rear of lower cowling near cowling upper/lower join?
Speculating;
Upper cowling -Exit into moderately high pressure. Exit air flow may be compromised (by how much?)
Hot/warm air & any fumes will not enter cockpit.
On shutdown, hot air has a good escape route, speeding cooling and reducing incidence of fuel vaporisation.
Oil "spatter/fumes (if any) may collect on windscreen.
Lower cowling sides -Exit into low pressure area. May increase exit air flow (more efficient?).
Cockpit fresh air vents will be downstream of cowling exit air. Warm, possibly CO contaminated air, entering cockpit.
On shutdown, vents not best placed for hot air to exit (some benefit).
General-The introduction of an alternative air exit, may impact negatively on existing cooling air flow, through coolant radiator (unlikly) oil cooler (more likly).
Additional vents will have an aesthetic impact on existing very "clean" cowling.
GordonTurner wrote:Hi Skippy
I think you likely have the top and bottom pressures reversed, ie pressure is low at the top of the cowling and higher at the bottom. Otherwise the airframe would be generating negative lift.
Kai wrote:The fun begins when the engine is stopped after flight. Then you have this nicely cowled monstrous lump of hot metal in there without as much as a trifle cooling, cooking anything you might have of semi conductors present. So the object of the exercise must be to get fresh air in there circulating when the plane is at rest. Cooling air supply is already present- fresh air will enter through the outlet chutes, and it rises when heated (thermosyphon): you need to get rid of this. So as an experiment two groups of ø10mm holes were drilled in the top rear of the cowling in two places, symmetrical along the cowling centre line. See the pic for one group.
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