Here is a video of my recent build and here are some construction details.
Let me know what you think about it
.Five Cylinder Stirling Engine
How much power output on this ?
Hi, this is nice design.
I'm gathering info to build my first mini Stirling engine.
I'm planning on building a huge one at my house if I can get these small various ones working correctly
Can you tell approx. how much power this 5 cylinder engine might have at low heat ?
Please advise on any info
Thanks
I'm gathering info to build my first mini Stirling engine.
I'm planning on building a huge one at my house if I can get these small various ones working correctly
Can you tell approx. how much power this 5 cylinder engine might have at low heat ?
Please advise on any info
Thanks
Nice
I like it too,
Curious about the heat temperature, perhaps hot water heating the bottom portion ?
Could that be sufficient to heat the bottom area to about 170-200 degrees, and the top upper portion I'm going to use my own design of cooling at around 45-50 degrees.
I'm curious if it will run with the temperature difference ? it's not a lot of heat, and not much cooling,.
Also what portion of the upper half should be coold, the whole half? or just the top, or just the top quarter is best ?
I also like the look of your design very nice looking.
Please advise
Thanks
Curious about the heat temperature, perhaps hot water heating the bottom portion ?
Could that be sufficient to heat the bottom area to about 170-200 degrees, and the top upper portion I'm going to use my own design of cooling at around 45-50 degrees.
I'm curious if it will run with the temperature difference ? it's not a lot of heat, and not much cooling,.
Also what portion of the upper half should be coold, the whole half? or just the top, or just the top quarter is best ?
I also like the look of your design very nice looking.
Please advise
Thanks
Thank you!
You need large cooling/heating surfaces (heat flow) in order to quickly (power) cool/heat a big ammount (power) of air inside the engine's pressure vessel.
Somewhere over the interwebs, i picked up, that the swept volume of the working piston (WP surface x WP travel) should equal one quater of the displaced air by the displacer piston (DP base surface x DP travel), for our over-the-thumb-engineered Stirlings anyway
.
It should run on the specified temp. difference (150 deg F) if you'll keep the friction down.
So for a relatively high design (gamma!) i would suggest this construction:
and for a flat one i would heat/cool only the bottom/top surface of the pressure vessel.
Best of luck to you!!
You need large cooling/heating surfaces (heat flow) in order to quickly (power) cool/heat a big ammount (power) of air inside the engine's pressure vessel.
Somewhere over the interwebs, i picked up, that the swept volume of the working piston (WP surface x WP travel) should equal one quater of the displaced air by the displacer piston (DP base surface x DP travel), for our over-the-thumb-engineered Stirlings anyway
.It should run on the specified temp. difference (150 deg F) if you'll keep the friction down.
So for a relatively high design (gamma!) i would suggest this construction:
and for a flat one i would heat/cool only the bottom/top surface of the pressure vessel.
Best of luck to you!!
Displacer and Displacer Piston ?
Thanks for the reply.jozafax wrote:Thank you!
You need large cooling/heating surfaces (heat flow) in order to quickly (power) cool/heat a big ammount (power) of air inside the engine's pressure vessel.
Somewhere over the interwebs, i picked up, that the swept volume of the working piston (WP surface x WP travel) should equal one quater of the displaced air by the displacer piston (DP base surface x DP travel), for our over-the-thumb-engineered Stirlings anyway
It should run on the specified temp. difference (150 deg F) if you'll keep the friction down.
So for a relatively high design (gamma!) i would suggest this construction:
and for a flat one i would heat/cool only the bottom/top surface of the pressure vessel.
Best of luck to you!!
I'm trying to follow this to be sure I understand your suggestion here:
There is a Displacer and Displacer Piston
And a Power Piston
Please confirm your talking about the Displacer and Displacer Piston swept volume being 4 X the size of the Power Piston Air Volume? Correct ?
Please advise Thanks