I won't say anything is "impossible" though in this case I'm tempted.Jack wrote: ↑Sun Dec 17, 2023 2:36 am I don't really see how regenerators in the general sense do anything else than basically change the timing of heating and cooling. So the most work would be done at a different crank angle.
For my idea I'm trying to store some heat in the fluid so I can use it to extend the heating cycle. Haven't fully figured it out yet though.
If you add heat to the working fluid it wants to expand, and the expanding is the means of extracting power. So it sounds like you are endeavoring to "store" heat in the working fluid but somehow inhibit expansion.
To a degree I guess that happens at or near TDC when the piston is holding the gas back under pressure throughout the heating process. So, I have to say it's not only possible, but happens to some extent in all engines during "isochoric" heating
https://en.m.wikipedia.org/wiki/Isochoric_process
To some extent I also think a "thermal lag" or the popular little so-called "thermoacoustic" engines with the long relatively voluminous chamber partially plugged with a stopper, partially isolated from the power cylinder, at TDC is effectively an isochoric heating chamber, especially with the piston held firmly down over the opening by a connecting rod attached to a crank, like a lid on a pressure cooker getting ready to explode. A boiler in a steam engine stores the hot working fluid under pressure until the valve opens allowing the high pressure steam to rush into the power cylinder to expand and drive the piston. Similar isochoric heating process.
I'm not sure there is any other way to store heat in the working fluid except as described here - under PRESSURE.
With steam, high pressure tends to raise the boiling point, inhibiting phase change, so I think when released the "wet" steam flashes to a "dryer" more expansive gaseous state.
Storing heat in metal is a way of putting the heat into a latent form using the high heat capacity and low expansion coefficient. The heat is "stored" in the metal with little expansion, but transfered into the gas the gas expands a lot.
An ammonia absorption refrigerator is getting pretty far afield but the ammonia gas is "stored" in water. It greatly expands when released from the water by a relatively low grade application of heat.
So my initial knee jerk response, that it would be "impossible" to store heat in the working fluid itself as it would expand and become useless, I have to think again, not impossible, but tricky. There may be other possibilities I haven't thought of, of course.