Mr Longboy or Mr. Green,
I no longer have any interest conversing with you.
Perhaps you took offense due to my opening remark:
If heat is being converted into work then the more work the engine is made to perform the cooler it should run. Maybe the problem with many model Stirling engines overheating is that they are being run without a load of any kind and therefore the heat, rather than being transferred to the load on the engine to do work is just building up and causing the engine to overheat.
In general, I was referring to the various small LTD or "Tin Can" type engines, not those model engines built by knowledgeable and experienced model builders, often quite beautiful of glass and polished brass intended solely for display, meticulously crafted and carefully load balanced so that the limited heat input and large heat sink and cooling fins insure that the engine can be displayed and operated and no overheating takes place.
If I stepped on the toes of any model builders here with this comment, I apologize.
Nevertheless, overheating in
MANY (not all) model Stirling engines is a common and well recognized problem. I'll offer a few examples among hundreds if not thousands posted on websites and message boards all over the internet:
Boyd's Tin Can Stirling Hot Air Engines
Changes To The Original Plans
Keep That Displacer Piston On!
By adding a "Hook" to the end of the 1/8" rod on the
displacer piston, In the event you "over heat" the engine the displacer piston will not fall off inside the displacer cylinder.
In other words, You won't have to "tear the entire engine apart if a "over heat" happens.
http://www.boydhouse.com/stirling/tips/index.html
"Put an ice cube on it" seems to be the most widely recommended solution.
I have
NEVER in all of my research and reading about Stirling Engines over the past several years (which has been considerable) seen anyone talking about, suggesting or referring to the facts I've been coming across recently upon researching the thermodynamics of these engines (i.e. increased work output reduces waste heat, heat converted into work "disappears", adding a load to a Stirling engine results in the engine "growing stronger", removing the load from a Stirling Engine causes it to overheat. etc.)
Upon putting together all this new information, It occurred to me that perhaps, as I stated: "Maybe the problem with many model Stirling engines overheating is that they are being run without a load of any kind and therefore the heat, rather than being transferred to the load on the engine to do work is just building up and causing the engine to overheat."
You seem to have taken offense at this statement and jumped in full bore, attacking me, apparently viewing yourself as coming to the defense of model builders everywhere or something. Again, I apologize if there was any misunderstanding, but I did not come here to fight or engage in any heated debate or bar room brawl. I meant no offense towards any model builders and did not mean to suggest that there is anything wrong with, or any inherent "problem" with model Stirling engines intended only for display.
My interest in Stirling engines is primarily utilitarian. I would like to get some power out of a small, not too difficult to build engine for something like charging some batteries for an alternative energy system using an inverter. Or perhaps for transportation, such as a hybrid Stirling-electric vehicle where the steady running Stirling keeps the batteries charged and an electric motor is used for driving and acceleration.
I think that model Stirling engines are great and interesting and nice to have and watch run and all that, but I think it is important for people to understand that the characteristics of a typical model engine, either a sooty tin-can model or an all shinny and beautiful glass and brass model are such that either their heat input is intentionally limited (i.e. glass for example, is more a heat insulator than a heat conductor) or they apparently lack torque and potential for power production, more due to the fact that they are being run in a no-load condition and quickly loosing their temperature differential rather than any inherent incapacity.
Now I don't really wish to continue fighting with you but having said all that, there are some additional comments you have made I feel need to be addressed, just in my own self defense:
You have repeatedly insinuated: "...you don't understand how a Stirling runs."; "...........Well Tom I am truly sorry...............that you still don't know much about these engines! No prize for you."; "What happens in the Stirling cycle Tom?"; ".........I would use that line too if I didn't know the Stirling cycle... If you can't explain what happens in the Stirling cycle I understand."; "I'm trying but had to find out if you have down the Stirling cycle.... Any teacher in school would hand you the paper back and tell you to complete the explanation of the Stirling cycle. Responding with "irrelevant" shows you don't have it."; "I do understand there are those who come to the forum without the Stirling cycle understanding. You have been accommodated here. Others have read this thread and see my prodding and razzing to get from you the Stirling cycle was in vain." etc.
As I've pointed out, and as some of my references state: "The Stirling engine only makes power during the first part of the cycle... In part one of the cycle; the pressure of heated gas pushing against the piston performs work."
If the engine is "running on ice" instead of a heat source, this does not change the equation. The energy to power the engine is still coming primarily from the HEAT being applied to the engine, not the heat sink. Although the role played by the ambient temperature is reversed from that of heat sink to heat source, the energy to push the piston is still coming primarily from the expansion of the heated air working against the piston.
It is during this phase of the cycle that heat is converted into work so that the heat "disappears" and therefore that quantity of heat will never reach the heat sink, which is the concept under examination here in relation to the thermodynamics of the Stirling engine.
I'm not going to cater to your insults and insinuations. I have no need to prove anything to you or anyone else regarding my understanding of the rest of the cycle. The rest of the cycle has little or no relevance in regard to this particular question.
"Heat is added to the gas inside the heated cylinder causing pressure to build. This forces the piston to move down.
This is the part of the Stirling cycle that does the work." "its own expansion of volume not only does work but also causes it to fall in temperature"; " if it is made to do work while expanding, the temperature will drop". "if it is allowed to do mechanical work while expanding, it will cool"; "to cool a gas... have it do work... against a piston in an engine"
This only happens during the first phase of the cycle where the heated, expanding gas does work. I see no need to confuse or divert attention away from this by laboring over what happens during the rest of the cycle just to answer your insults and insinuations.
Longboy wrote:
"You just showed me that you have shortfalls in understanding mechanics."; "Don't talk about mechanical things here Tom your not qualified."
You know nothing about me or my qualifications, mechanical or otherwise. But as a matter of fact I've been an engine mechanic most of my life, starting out with my own repair shop in my parents garage in high school. My qualifications have gotten me several jobs working full time as an engine mechanic. Engine mechanics has been my trade a good part of my life. And who are you anyway to dictate who can or can't talk about what here, regardless of their qualifications ? Are you the forum moderator ? Do you own the domain stirlingengineforum.com ?
You come off more like a "Troll" who knows little to nothing about these engines beyond having purchased some models off Ebay.
Given your apparent lack of understanding of basic Stirling engine principles, which you have already confessed early on: (i.e. "How all the containment flows with in the engine I don't know. Temps and pressures change and the engine works.") I don't see how you could have possibly built any working models unless it was from a kit.
Instead you go on and on trying to make an argument.
Thats what its about here,...
No, I don't believe anyone comes here to this forum to pick a fight or engage in senseless debates over irrelevant nonsense.
People either come here to find out about Stirling engines, discuss the topic with others with a like interest, learn something or share what they have learned. This is not a debate club where you make an argument just for arguments sake.
making the argument. Thats how one supports his position other wise you are just blowing smoke. Then I'll assume you can't make the argument by not answering the question. I asked you 3 times about this auger and you haven't answered.
I've posted the link and quoted the relevant passages. Who cares ? This is just another irrelevant argument you have thrown up based on nothing. The paper clearly states the auger is mechanically driven while the engine is running not hand operated.
I don't think it to much to ask for your position on this auger thing. I asked you to go to You Tube and you refuse. Time to bring in more of Tom and less of quotes by others cuzz you sound like an encyclopedia! Its not enough to quote out of books and following with 10 words of your own saying "thats the way it is". Where is the passion in that? It comes across to me as something I find contemptable and that you are no where near on par in these posts.
I've watched dozens of Stirling engine videos on You Tube and elsewhere. I've already seen any number of engines you might like to count running on either a steady flame from a candle, oil lamp, sterno can or some other constant source of heat, such as the sun. There are several references to small model Stirling engines running on a candle right in this forum.
You make this absurd and grandiose assertion: "Candles running a model Stirling? Haven't seen many using candles. Modelers use the "totally adjustable heat input device". Someday you will know of this device." ; "This goes right to your lack of observation. I want you to go to "You Tube" and let me know how many Stirlings have a candle for heat supply vs those that use the "totally adjustable heat input device". Everyone else reading here is going to and quickly find out and see that not only do you not read what you write, but you don't have any credibility here also by making statements that aren't so."
I'm sorry, but I feel no inclination to cater to your apparent lunacy. My statement was that Stirling engines are not generally equipped with a carburetor or a throttle or a gas peddle to regulate the fuel or heat input while the engine is in operation. If someone wishes to focus more sun on the engine, add another candle, turn up the flame or whatever they can certainly do so, but generally speaking a Stirling engine runs on a constant heat input. You don't "step on the gas" in a Stirling engine.
Even if you did, or could with your mysterious
"totally adjustable heat input device" it would not change the thermodynamic principles involved (i.e. heat energy changing form and "disappearing") Whatever the heat input, whatever the efficiency of the heat sink to dissipate heat, whatever the work load on the engine, the formula is the same. i.e. Heat dissipated = Heat In minus whatever heat "disappears" as a result of being converted into work.
The more heat converted into work the less heat there is left over to cause overheating. An engine running with no-load would have a tendency to overheat as no heat is being converted into work so more heat would build up or would have to be dissipated with some additional heat sink. like an ice cube or a fan or larger cooling fins.
I'm not going to go searching for some information on You Tube or anywhere else to try and find support for or against your nonsensical assertions.
As I've stated before:
"I have no intention of going in search of some nonexistent reference in an effort to find support for your assertion."
Perhaps I wasn't the most idea adversary in the discussion here and this forum is not well attended. Only a couple others chimed in.
Your insistence on taking an adversarial position, apparently with no regard for truth or reality one way or the other, but just to be argumentative is pretty hard for me to take. I imagine the same would be true for others. Who would care to wade through page after page of petty bickering and nonsense just to post here ?
You pretty much diverted the topic into a grammar lesson to define the meaning of common words like "against" and "as". You insist on asserting ideas and concepts that are patently false and have no correspondence with reality whatsoever.
i.e. The expanding hot air does not push the piston in a hot air engine. ; Stirling Engine heat input is "totally adjustable" and anyone who says that they more often run on a constant heat input has no credibility because it just isn't so.
It isn't up to me to go looking for evidence to refute such nonsense.
I could care less about my, or anyone else's "credibility" here. This is a Stirling engine forum not the CIA. I could care less about your supposed "totally adjustable heat input device" that most modelers supposedly use. As if one needed to be initiated into the secret order of the knights of Stirling sercetorum seclorum or something to have the privledge of knowing whatever foolish thing it is you are talking about.
"Someday you will know of this device...." woo woo
"Everyone else reading here is going to and quickly find out and see.... you don't have any credibility here...
Oh,... I'm so scared!
I might loose "credibility" on a Stirling engine forum if I don't go and do as Mr Longboy dictates.
I'm not wasting any more of my time with you here Mr "Longboy" or "Green" or whatever your name is. I've had quite enough of your nonsense.
