Looks like a good way to figure out proportions for conecting rods. I'm currently in the middle of researching stering enigines for a project of my own. If you don't mind I have a few questions for you. Are you going to put a regenerator on this engine? And how are you figuring what your displacement ratios should be for cool/hot cycles of the engine? ( I understand this is determined by bore and stroke, but how do you arive at the initial displacement figures?) , as well as displacer disp.
But I just wonder, how much loss do you think there is in this system because of the crank? I know you will use this and another system but if you had got rid of the crank it could have been much more efficient...
Tommey Lee Red showed a very smart way to do this, it could be very close to a 100% efficient.
A mylar coated 10' dish reaches 1100*F over the 8" target circle. A 2x4 bursts into flames in 20 seconds. I believe this will output 1-2KW here in Phoenix.
Sweet! Sounds like I'm working along the same lines. I even tried to go with a rhombic for a bit, but the mathematical analysis got a little hairy. Also, without machine tools a conventional piston is out of the question.
Looks like a good way to figure out proportions for conecting rods. I'm currently in the middle of researching stering enigines for a project of my own. If you don't mind I have a few questions for you. Are you going to put a regenerator on this engine? And how are you figuring what your displacement ratios should be for cool/hot cycles of the engine? ( I understand this is determined by bore and stroke, but how do you arive at the initial displacement figures?) , as well as displacer disp.
panchovilos 1 year ago
Have Rhombic drive some advantage?
fernandesilyt 2 years ago
5 stars, Thank you. It's nice to have someone who can explain what their doing. Great video
sailingsolar 2 years ago
Excellente demonstration du systeme.
ibercaracole 2 years ago
awesome !!!
insAneTunA 2 years ago
Thanks IT,
Keep Moving Forward.
Just Build It!
PulseFuelNerd 2 years ago
@PulseFuelNerd I WILL KILL U IF U WONT TELL ME HOW TO BUILD IT XD AND GIVE ME FREE EQUIPMENTS XD herhehe
alippo86 1 year ago
This looks very interesting!
But I just wonder, how much loss do you think there is in this system because of the crank? I know you will use this and another system but if you had got rid of the crank it could have been much more efficient...
Tommey Lee Red showed a very smart way to do this, it could be very close to a 100% efficient.
Nabo00o 2 years ago
Can you send me a PM with some links and details?
PulseFuelNerd 2 years ago
How many electric Wats are you going to produce from for example 2m solar dish ??
szym86 2 years ago
A mylar coated 10' dish reaches 1100*F over the 8" target circle. A 2x4 bursts into flames in 20 seconds. I believe this will output 1-2KW here in Phoenix.
PulseFuelNerd 2 years ago
Stirling2 will produce 1-2KW. Stirling1 will produce 3-5KW.
PulseFuelNerd 2 years ago
Excellent work, man! What I can't wait to see is how you put that into a crankcase.
Has this rhombic design been built before?
ZeroFossilFuel 3 years ago
Thanks Z, The gearbox is now designed. I will go by materials and learn how to weld 6061 with HHO!
You tube user barumman has a great rhombic stirling. It is the best i've seen working.
I adapted this design from just a photo on wiki.
PulseFuelNerd 3 years ago
Holy S___! I just watched barumman's five parts on the Rhombic. I can see why you're stoked.
ZeroFossilFuel 3 years ago
I just found his links in the last couple days. (Both D3 & IH had already seen.)
I was excited even before, but seeing his 60% efficiency, reafirms what has become obvious and plain to me.
Good things in store for us.
PulseFuelNerd 3 years ago
Stellar model/description of a rhombic stirling! Thanks! Keep 'em coming.
kheston 3 years ago
Cool.
tjgame2 3 years ago
Sweet! Sounds like I'm working along the same lines. I even tried to go with a rhombic for a bit, but the mathematical analysis got a little hairy. Also, without machine tools a conventional piston is out of the question.
desiredusername 3 years ago
Good work.
paulie1982 3 years ago