Stumbled on the first video through Hackaday, had just finished watching it and hit Subscribe when part 2 dropped. Perfect timing. Looking forward to part 3.
Very elegantly reasoned out, I enjoyed it a lot. Though I prefer the term “sanity check” to “sketchy test”. It helps me feel I am behaving more scientifically!
Your attention to detail in this project is just beautiful to watch! I'd also love to see some kind of monitoring for the total heat transferred, along with the instantaneous difference in temperature between the hot and cold side. This would allow you to calculate the engine's thermal efficiency.
Wow! Measuring what you build is what makes this so interesting to me. So many projects simply run / show a voltage but there's no 'meat' behind it in the form of power or measurement. Really enjoying your work here :)
My God. Man. Hands down. Thank you for your work and sharing it with us. I'm really impressed with your work,and surprised that your channel is not over million subs yet. Cheers and keep it real!
Good thinking! Never read that thought before. I've been wanting to mount a diffraction grating on that's finer like a bluray or so and finding the sweet spot for sweeping to make a higher resolution webcam spectrometer. I also have some Apple laptop CD/DVD sleds for the razor blade collimator(s) slit width control. Neat idea and will keep in mind if I get to that project with the power at be.
Yes...that was my first thought also...but you need to be aware that this coils/motor is in HDD. I have a lot and will certainly use them for my own torque sensor 👍
Wow, This is some pretty heavy stuff doc. Just remember that a bolt of lightning is gonna strike the clock tower at precisely 10:04 next Saturday night!
I have no interest in sterling engines but I KNEW there's more to it (having watched your previous videos). That torque meter is a beauty! This thing should have its own video!!!
I saw a electromotor performance testing device once that just had a flywheel and a rpm sensor. Performance was measured by looking at the acceleration of the flywheel over time. Brilliantly simple and accurate...
@@leosbagoftricks3732 Ha! You've got a point there... So... How about connecting a brushless motor and use it as a generator? This should give you a pretty good indication of the power that is generated by the engine while being easy to build...
I'm a Auto technician and specialize in Electrical diagnostics and love doing it, so naturally I'm always designing and building things myself. This video was very impressive and hope to be at your level one day. I know I will. Keep making videos man, we're watching.
@ 5:25 They say it is good solution, but I like your much, much more :) It's astounding project and I'm sure everyone is super pleased having opportunity to admire it. And I think you really deserve much more attention from RUclips community.
Wow! I've picked up a few tricks, thank you :) Found a link to you channel on the EEVblog forum. I wish RUclips suggested your channel earlier. Great content!
Brilliant content! But as a mechanical engineer, I might have encouraged starting with an inexpensive digital scale (& lever arm as used on big dynos) & reverse engineering it to output an analog or digital signal.... looking forward to next steps (& since it was a few years ago I only need to wait til I have time to watch). Thanks for creating this content!
Hi Leo, never thought that you even go to the extend of creating your own torque transducer. So much work go into that. Nonetheless, congrats on your progress and look forward for part 3.
interesting how electric and stirling hot air works so similar, all about changing the pressure of the forces..... whether temp or electronic differences in potential energy, all works very much the same, all energy is energy, and seems to work the same in so many ways. thank you for this video, and the thoughts it made me think.
Please, keep making these videos, I absolutely love it! I'm a Physics student, but actually I want to be an engineer, because I love all the plan & build part, so your videos are a big pleasure for me
Nice, it turned out excellent. I love how you as an experienced engineer rather test something early on to get a good idea, which is what I personally prefer as well. However most companies (and schools) rather have you calculate and simulate for a week, just to find out that the results are outdated before they were announced, because some little detail was not in the equations. Looking forward to part 3. Greetings from Germany, Michael
That torque transducer is a thing of beauty. I would probably just have used a 1m long lever pushing on a kitchen scale. And I would have attached the torque transducer assembly on the engine mount to avoid the hassle of it having to move along with the brake. Though I guess placing the whole sliding brake assembly on a tilting platform and measuring the torque there is functionally the same too.
WOW! a pretty comprehensive study of the torque curve. Real nice work, I'd been satisfied with an ammeter across some headlights. Ya your doing real nice work. liked subscribed. The ability to easily burn propane/NG in a generator is handy because the fuel wont go stale. Air traffic controll has this problem frequently in there generators, this engine has a lot of feature's like that.and the veriety of heat sources endless. your hard work has great value to me. Thanks!
Funny when you mentioned the obsessive nature of interest in the sterling's it resonated with me. i have been fascinated by the sterling generator idea built by NASA.. as im interested in solar power being used to generate electricity with a sterling as apposed to panels. I think your test torque meter is genius and you gave me a few ideas as to testing using that method (and i have a 3d printer)..I look forward to your tests. cheers smarty pants!
Can't tell from video what material the backing plate for the eddy current magnet holder is, but each side should effectively be magnetically similar to an open ended U magnet facing the aluminum dynamic plate in order to maximize the field concentration through the aluminum. Easiest way to do that is for each end of the stationary magnet stick to have a north and a south magnet roughly near each other and for the plate to be steel to allow a return path through the stationary plate.
This is really awesome stuff. I just finished my phd in microscopy and optics but want transition to more engineering and Im learning so much! I love it :)
Been interested in Stirling cycle since being an apprentice mechanic in the 70's. tried building one as a Technology Teacher around 2010. Close but no cigar!
Amazing series of video, thank you for making this and sharing your knowledge! I'm interested in your "simple TTL circuit" that you used to create your crank speed sensor, would you be able to share your details on your VR conditioning circuit please? Thanks!
Good call on the LED as a detector. I'd have gone with a gradient on the blade myself, a wide grid that got selectively filled in until totally filled in the center, then selectively filled until totally empty at the other edge. But an LED is less finicky I think.
looking at the diagram i at first thought that the stepper spun the whole thing counter to the engine rotation to get around the low speed eddy current brake limitation
That is an amazing solution for a small dyno, hope it works well. Do you know the energy output of your butane torch? Might need an electric hotplate coil or induction coil as the heat source so you know your input energy and can calculate your efficiency. The torch my be outputting up to 800w of energy (probably 250-500) and if your sterling is even in the 5-10% efficiency range you will be making well over the 11watts that your dyno can measure.
The transducer peaks at 0.45 newton meters, at 1000 RPM that's almost 50 watts. The limiting factor is the brake, which can be "juiced-up" by increasing the flywheel diameter and adding more magnets
@@leosbagoftricks3732 I look forward to seeing it in action, hopefully getting maxed out so you can build the bigger flywheel. My guess is you are making over 40watts, maybe other people can throw some guesses here too.
Wow you do have a bag full of tricks! You are amazing. I'd be concerned about the dynamic response of the torque meter, it will be as good as your closed loop controller rejecting the ripple in the misaligment measure , probably you will have to augment the bandwidth in the close loop to get better results, anyway for this application at high angular velocity an averaged torque value is good enough. Can't wait to see Ep. 3
To be efficient, the working fluid in a Sterling engine is hydrogen under very high pressure. These two factors present formidable challenges in sealing the the shafts driving the displacer and power pistons.
Great to see the smart application of analogue circuitry where it really belongs. Too often high powered microcontrollers are put to use them it's not appropriate
I was wondering if Sterling brainiacs would know if you could use a ram pump for the water side to cool it and a direct heat pump loop with freon in the ground to run the hot side
Awesome Engeneering! A PID-Controller for an electromagnetic force actuator was part of my university class last semester. It was interesting to see it finally implemented and not just as a task from a textbook. Have you done the PID-Controller the analog or the digital way?
Hi. Did you consider using coil instead of permanent magnet? This way you could tune the torque with better accuracy and range, without any moving part.
I'm wondering nowadays with more lasers available to cutting... if Ruby would be easier to have cut or maybe in another way I have no clue regarding... depositing on to the cylinder and piston. Seems would still need like an air bearing lathe or grinder to somehow make smooth the Ruby cylinders for the least friction. Hope I'm correct thinking ruby lined cylinders and I think lined piston as the holy grail of material also since has been a while since I've researched. I recall whatever NASA paper that was I read about regarding and haven't been able to find since... noted increasing the pressure of the working medium (fluid) that improves efficiency. Seems there were some capacitors on the market that disappeared too that used ruby... though for like maybe really low Q or something I recall reading maybe in the last decade. Awesome series! Thanks for sharing. Subscribed.
I saw a very simple dyno recently that was nothing more than a torque arm with a point contact onto a set of digital scales. That could be automated very simply with an electromagnet controlling the amount of drag on a flywheel.
I am only an enthusiast so most of this went right over my head but nonetheless I love it and great job! Can't wait to watch the next episode or maybe someday you'll eat your shoe making the engine so efficient haha
Very cool! Obviously doing it this way you're going to have more "real world" info about the engine output, but couldn't you more easily measure your efficiency backwards by using a motor to drive the engine and measuring the temperature generated at the hot end?
part 1 was a nice build on a simple ? engine design, then part 2 was very impressive with your thought process and developing your own sensor setup while saving alot of $. ocd rules
"Hello, my name is John and I'm a Stirling engine addict"
"We prefer the term 'enthusiast' here"
Just the torque transducer deserves its own video. Great work!
As a engineer that finished my degree about 1 year ago I am overwhelmed by your skills. Amazing.
same ! (but 2 years ago)
Same, but 50 years ago
I am just a hobbyist & I am overwhelmed by his skills too!
Same, 6 years ago.
One day I hope to have this level of ingenuity.
This is the fine art version of backyard electronics.
Stumbled on the first video through Hackaday, had just finished watching it and hit Subscribe when part 2 dropped. Perfect timing. Looking forward to part 3.
Very elegantly reasoned out, I enjoyed it a lot. Though I prefer the term “sanity check” to “sketchy test”. It helps me feel I am behaving more scientifically!
When I worked in the movie business we used to say "the best effects rig is the one that breaks on the last take"
Mmmmm.......gaffer tape is structural.!
Your attention to detail in this project is just beautiful to watch!
I'd also love to see some kind of monitoring for the total heat transferred, along with the instantaneous difference in temperature between the hot and cold side. This would allow you to calculate the engine's thermal efficiency.
Wow! Measuring what you build is what makes this so interesting to me. So many projects simply run / show a voltage but there's no 'meat' behind it in the form of power or measurement. Really enjoying your work here :)
I love your approach. "Why don't I just design my own?" and then proceeds to show how simple the principles are.
My God. Man. Hands down. Thank you for your work and sharing it with us. I'm really impressed with your work,and surprised that your channel is not over million subs yet. Cheers and keep it real!
The head actuators from old HDDs might be great donors for coil, magnets and axle to build a DIY torque transducer.
Good thinking! Never read that thought before. I've been wanting to mount a diffraction grating on that's finer like a bluray or so and finding the sweet spot for sweeping to make a higher resolution webcam spectrometer. I also have some Apple laptop CD/DVD sleds for the razor blade collimator(s) slit width control. Neat idea and will keep in mind if I get to that project with the power at be.
Yes...that was my first thought also...but you need to be aware that this coils/motor is in HDD.
I have a lot and will certainly use them for my own torque sensor 👍
Besides the extremely useful content of your videos, I find your pitch and mood ver calming 😄! If I’m tired I’ll watch the videos to relax 😄🙌🏼
Wow, This is some pretty heavy stuff doc. Just remember that a bolt of lightning is gonna strike the clock tower at precisely 10:04 next Saturday night!
I am very impressed, blown of my feet. Its incredibly novel, yet very well presented.
I have no interest in sterling engines but I KNEW there's more to it (having watched your previous videos).
That torque meter is a beauty! This thing should have its own video!!!
big fan of those intermediate sketchy tests as well helps you confirm the thing you thought was a good idea actually works.
Yes- It's always the things that you ASSUME will work that bite you!
I saw a electromotor performance testing device once that just had a flywheel and a rpm sensor. Performance was measured by looking at the acceleration of the flywheel over time. Brilliantly simple and accurate...
...But totally useless for a sterling! which needs to be measured under steady state conditions.
@@leosbagoftricks3732 Ha! You've got a point there... So... How about connecting a brushless motor and use it as a generator? This should give you a pretty good indication of the power that is generated by the engine while being easy to build...
I'm a Auto technician and specialize in Electrical diagnostics and love doing it, so naturally I'm always designing and building things myself. This video was very impressive and hope to be at your level one day. I know I will. Keep making videos man, we're watching.
I love your Artisan but scientific approach!
@ 5:25 They say it is good solution, but I like your much, much more :)
It's astounding project and I'm sure everyone is super pleased having opportunity to admire it.
And I think you really deserve much more attention from RUclips community.
Awesome, very nice build. That torque transducer is clever!
I am looking forward to see the next stage of the project! ⚡️
Fantastic, you really have a bag of tricks!! Congratulations!!
Wow! I've picked up a few tricks, thank you :)
Found a link to you channel on the EEVblog forum. I wish RUclips suggested your channel earlier. Great content!
Brilliant content! But as a mechanical engineer, I might have encouraged starting with an inexpensive digital scale (& lever arm as used on big dynos) & reverse engineering it to output an analog or digital signal.... looking forward to next steps (& since it was a few years ago I only need to wait til I have time to watch). Thanks for creating this content!
Hi Leo, never thought that you even go to the extend of creating your own torque transducer. So much work go into that. Nonetheless, congrats on your progress and look forward for part 3.
Wauw...much respect!
Really perfect done...will certainly look epi 3😇💪👍
Pure engineering! Love at first sight!
Get on patreon! Leo, your skills are under appreciated. Start winding your generator motor! Another way to measure the raw output power
U have a quick process and wide range of real knowledge.. Were you.. Are u.. A professional engineer?
Very impressive range of competence /madness. I would not like to think how many hours of work this covers.
I learned a lot about things i wasn't aware of. Thank you.
Enjoyed, learned, and impressed as heck. Anticipating episode 3. Thank you Leo.
Your knowledge and attention to detail with this project is incredible, I'm looking forward to the next part!
Wow! Absolutely incredible level of both detail and engineering.
Happily subscribed for episode 3.
interesting how electric and stirling hot air works so similar, all about changing the pressure of the forces..... whether temp or electronic differences in potential energy, all works very much the same, all energy is energy, and seems to work the same in so many ways. thank you for this video, and the thoughts it made me think.
Fantastic work Leo.
Please, keep making these videos, I absolutely love it! I'm a Physics student, but actually I want to be an engineer, because I love all the plan & build part, so your videos are a big pleasure for me
Very nicely built device! It's clear you have a vast knowledge. Awaiting the test of your Stirling engine!
Nice, it turned out excellent. I love how you as an experienced engineer rather test something early on to get a good idea, which is what I personally prefer as well. However most companies (and schools) rather have you calculate and simulate for a week, just to find out that the results are outdated before they were announced, because some little detail was not in the equations.
Looking forward to part 3.
Greetings from Germany,
Michael
That torque transducer is a thing of beauty. I would probably just have used a 1m long lever pushing on a kitchen scale. And I would have attached the torque transducer assembly on the engine mount to avoid the hassle of it having to move along with the brake. Though I guess placing the whole sliding brake assembly on a tilting platform and measuring the torque there is functionally the same too.
So glad I discovered this channel!
Great job! I intrigued and had to subscribe to see the next episode!
WOW! a pretty comprehensive study of the torque curve. Real nice work, I'd been satisfied with an ammeter across some headlights. Ya your doing real nice work. liked subscribed. The ability to easily burn propane/NG in a generator is handy because the fuel wont go stale. Air traffic controll has this problem frequently in there generators, this engine has a lot of feature's like that.and the veriety of heat sources endless. your hard work has great value to me. Thanks!
Funny when you mentioned the obsessive nature of interest in the sterling's it resonated with me. i have been fascinated by the sterling generator idea built by NASA.. as im interested in solar power being used to generate electricity with a sterling as apposed to panels. I think your test torque meter is genius and you gave me a few ideas as to testing using that method (and i have a 3d printer)..I look forward to your tests. cheers smarty pants!
You are killing it bro. Keep it up.
Great video! You are very skilled and knowledgeable, I'm glad I found your channel!
Great video, very interesting. I really like what you do, continue like this!
Next level bro, wow.
for the support
Bloody good stuff mate
Can't tell from video what material the backing plate for the eddy current magnet holder is, but each side should effectively be magnetically similar to an open ended U magnet facing the aluminum dynamic plate in order to maximize the field concentration through the aluminum. Easiest way to do that is for each end of the stationary magnet stick to have a north and a south magnet roughly near each other and for the plate to be steel to allow a return path through the stationary plate.
This is really awesome stuff. I just finished my phd in microscopy and optics but want transition to more engineering and Im learning so much! I love it :)
Ohh boy, you really need a patreon page! Hope you keep doing this awesome stuff!!
Can't wait for the next one
Very interesting! Thank you!
You've got another subscriber! Keep this project (and others please) up! love it!
Dude. Puts me to shame!!! Honored to find your Channel.
Thank You! Great stuff.
For low rpm spin thr magnets with a small motor and subtract the difference of the steady state motor.
Been interested in Stirling cycle since being an apprentice mechanic in the 70's. tried building one as a Technology Teacher around 2010. Close but no cigar!
Amazing work. Reminds me of what they do in Cuba to continue innovating to survive. Put out a product for me to purchase so I can support!
Amazing series of video, thank you for making this and sharing your knowledge! I'm interested in your "simple TTL circuit" that you used to create your crank speed sensor, would you be able to share your details on your VR conditioning circuit please? Thanks!
Good call on the LED as a detector. I'd have gone with a gradient on the blade myself, a wide grid that got selectively filled in until totally filled in the center, then selectively filled until totally empty at the other edge. But an LED is less finicky I think.
Great stuff going on here. You earned a sub. BTW, I found you while searching 'free piston stirling engine'.
looking at the diagram i at first thought that the stepper spun the whole thing counter to the engine rotation to get around the low speed eddy current brake limitation
Great video!
That is an amazing solution for a small dyno, hope it works well. Do you know the energy output of your butane torch? Might need an electric hotplate coil or induction coil as the heat source so you know your input energy and can calculate your efficiency. The torch my be outputting up to 800w of energy (probably 250-500) and if your sterling is even in the 5-10% efficiency range you will be making well over the 11watts that your dyno can measure.
The transducer peaks at 0.45 newton meters, at 1000 RPM that's almost 50 watts.
The limiting factor is the brake, which can be "juiced-up" by increasing the flywheel diameter and adding more magnets
@@leosbagoftricks3732 I look forward to seeing it in action, hopefully getting maxed out so you can build the bigger flywheel. My guess is you are making over 40watts, maybe other people can throw some guesses here too.
@@chrischippett7428 I'll honestly be thrilled if I can get 5W out of my little friend.
Wow you do have a bag full of tricks! You are amazing. I'd be concerned about the dynamic response of the torque meter, it will be as good as your closed loop controller rejecting the ripple in the misaligment measure , probably you will have to augment the bandwidth in the close loop to get better results, anyway for this application at high angular velocity an averaged torque value is good enough. Can't wait to see Ep. 3
The transducer has a pretty wide bandwidth, all the ripple can simply be averaged, even with a simple RC filter.
Have you thought about using an of the shelf galvanometer or a HDD actuator?
Really interesting stuff !
I wonder if you could take a Rotary engine design to the sterling engine
To be efficient, the working fluid in a Sterling engine is hydrogen under very high pressure. These two factors present formidable challenges in sealing the the shafts driving the displacer and power pistons.
Could have your engine drive a generator attached to a variable load to measure its torque?
Defiantly worth a SUBSCRIBE.
Great channel. Just watched all you vids. realy entertaining and educating. Can't wait for more :)
I am very very very very impressed!
Super interesting as usual! Well done, Leo! :)))
Very impressive!
Maybe you could have tried bronze filled plastic or graphite filled to pring your stirling engine?
Great to see the smart application of analogue circuitry where it really belongs. Too often high powered microcontrollers are put to use them it's not appropriate
I was wondering if Sterling brainiacs would know if you could use a ram pump for the water side to cool it and a direct heat pump loop with freon in the ground to run the hot side
Just an idea. Would it be possible to avoid all the movement issues by having the stirling engine move the rod through a solenoid to generate power?
This. This is fantastic.
Awesome Engeneering!
A PID-Controller for an electromagnetic force actuator was part of my university class last semester. It was interesting to see it finally implemented and not just as a task from a textbook.
Have you done the PID-Controller the analog or the digital way?
ANALOG! easy to build and tune! I got other stuff to do!
Hi.
Did you consider using coil instead of permanent magnet?
This way you could tune the torque with better accuracy and range, without any moving part.
Please also test with a dynamo, how quick you could load a powerbank of a decent size. 10.000mAh? More?
I'm wondering nowadays with more lasers available to cutting... if Ruby would be easier to have cut or maybe in another way I have no clue regarding... depositing on to the cylinder and piston. Seems would still need like an air bearing lathe or grinder to somehow make smooth the Ruby cylinders for the least friction. Hope I'm correct thinking ruby lined cylinders and I think lined piston as the holy grail of material also since has been a while since I've researched. I recall whatever NASA paper that was I read about regarding and haven't been able to find since... noted increasing the pressure of the working medium (fluid) that improves efficiency. Seems there were some capacitors on the market that disappeared too that used ruby... though for like maybe really low Q or something I recall reading maybe in the last decade. Awesome series! Thanks for sharing. Subscribed.
awesome!!! why you use this big orange resistors ?
You are an awesome engeneer Mr Leo😍🤩
the simple linear ps option see 'HomoFaciens Rotary encoder or: How to build a digital servo using an Arduino and photo sensors'
I saw a very simple dyno recently that was nothing more than a torque arm with a point contact onto a set of digital scales. That could be automated very simply with an electromagnet controlling the amount of drag on a flywheel.
you could actually use the concept below to get variable braking and eliminate the slide
I am only an enthusiast so most of this went right over my head but nonetheless I love it and great job! Can't wait to watch the next episode or maybe someday you'll eat your shoe making the engine so efficient haha
Wow 🤯, I glad theirs clever guys about
Very cool! Obviously doing it this way you're going to have more "real world" info about the engine output, but couldn't you more easily measure your efficiency backwards by using a motor to drive the engine and measuring the temperature generated at the hot end?
great stuff!
part 1 was a nice build on a simple ? engine design, then part 2 was very impressive with your thought process and developing your own sensor setup while saving alot of $. ocd rules