As far as the Carnot Limit, and by the way, Carnot has been dubbed "the father of thermodynamics" as well as I believe, originator of the second law, in my experience, the general scientific community considers the Carnot limit and the second law as synonymous, you seen to want to create a distinction.stephenz wrote: ↑Sun Jul 09, 2023 10:07 am No the drinking bird example certainly does not qualify to justify your own observations. edit: unless of course, you covered the top plate with a wet fabric. haha
The Stirling engine rejects waste heat through a cooler (heat sink) which has a temperature greater than that of the environment.
The drinking bird rejects heat to the environment through evaporation, to what the temperature drop of of the head is a buy product of its energy behind removed by the phase change process.
My argument is that the Carnot limit is invalid.
The drinking bird IS an example of a heat engine and therefore the Carnot Limit should apply to it as well.
I don't consider phase change a "cold reservoir", do you? So the bird, in actuality operates within a single reservoir without a "sink".
The temperature difference is, well, there isn't any. Infact the bird will operate on a glass of water that is above ambient. As far as I know there is no corollary to any of the numerous iterations of the second law that would exclude the bird from being subject to the Carnot limit. Or for that matter, a Stirling engine running on ambient heat driving a swamp cooler or other evaporative cooling system. The bird itself drives or powers its own evaporative cooling, as it's mechanical swinging motion powered by ambient heat greatly assists the evaporation process. It is not entirely a passive recipient of the benefits of evaporative cooling but uses it's own energy resource, ambient heat, to drive the cooling cycle, dipping and swinging.
IMO, a Self cooling Stirling engine using ambient heat to power some alternative, cooling process, possibly more effective than mere evaporative cooling, is no more or less a violation of the Carnot Limit than the bird.
Not necessary. Thermally, Most off the shelf model Stirling engines are pretty "leaky", transferring heat from the hot to the cold side by conduction, convection or radiation without producing any power, even if sitting idle.Now let me ask you this:
How is your engine altered compared to a standard LTD engine? Wouldn't a standard LTD engine be capable of exhibiting the same behavior as the engine depicted in your video?
I have always made some common sense modifications to the engines I've been experimenting with. Primarily swapping out heat conductive parts for non-heat conductive ones.
An off the shelf LTD engine also does not have a regenerator. Many would say, that a regenerator is an essential element to qualify as a Stirling engine.
It would be very difficult for an LTD to cool itself while surrounded by and having direct exposure to the ambient heat. Just like any refrigerator or freezer, the engine requires effective insulation as appropriate to prevent the ambient heat from nullifying any below ambient self-cooling effect, like trying to keep food cold in a refrigerator with no insulation.
I chose model engines that are capable of having their timing advance adjusted. Often a modification, such as the addition of a regenerator will also require a timing adjustment.
The engine in the above photo with the new glass piston and cylinder has had the throw extended to increase the compression/expansion ratio.
Very precise timing adjustments are necessary as timing influences both heat utilization and power output.
What we have been calling "dwell" can have an influence. The amount of play in the displacer connecting rod can have an influence on dwell.
Lubrication, varying the load, more or less friction, adjusting the displacer thickness and travel distance
Of course, if the engine is above a heat source, such as a cup of hot water, convection will carry heat from the sides of the cup up to and around the top of the engine and this sort of incidental heat transfer needs to be avoided for there to be any hope of detecting some very slight refrigerating effect.
Not sure if there is anything else I've neglected to mention.