There are two elements that are key to the Tesla Turbine: The first (which you have) is that instead of impellers and blades it uses it uses a stack of disks that are separated by spacers. The rotation of the disk pack is caused by the boundary layer, the viscosity (stickiness) of the disk surface against the moving fluid. The second (which you missed) is that the fluid (air, water, steam, gas, liquid) is exhausted out the side along the axis of the shaft. This configuration forces the energy of the fluid into a spiral and compresses the energy into the center of the disks and exhausts through center holes. THIS IS WHERE THE MAGIC HAPPENS. If the fluid enters from the top and exits the bottom, the rotation and the speed of the disk pack will not go faster than the speed of the fluid. But, if the fluid exits the center of the disk pack the energy gets added to the rotational energy of the disk and the faster the disk rotates, it begins to pull fluid into the turbine. The turbine attains speeds faster than the speed of the fluid. RPM’s can reach multiple tens of thousands. If your add another Tesla turbine but configured so that the exhaust of the first becomes the Intake of the second (the second becomes a pump) the second turbine helps remove back pressure on the first turbine for even more performance (energy efficiency) When Tesla first built the turbines, his biggest problem was that the materials of the time were not strong enough to withstand the forces generated by the rotations of the disk packs and shaft.
Thanks for your explanation. Made a huge difference to my understanding of things. Perhaps you could steer us to a video explanation of how to cut and offset the disks with central discharge openings.
@@wildcoastadventures7535 For more information about the theory check out these channels: Lesics, American Antigravity, Subject Zero Science, YTEngineer, Young DIY , Nikola Tesla Research & Development Centre, rhanz bhach, Phoenix Turbine Builders Club, Field Interference, Amit Mandal, DesktopDemos, Jonas Vandenhoudt, Manuel Mena, Engineer's Academy, Engineer Inc.,
Additionally seeing how high RPMs were meant to be achieved with this design, make sure you balance it. Vibrations of course will decrease your efficiency, and in a worst case situation, cause your turbine to self destruct, which with high speeds could be trouble for you.
Would it not make sense to use the platters from disk drives? They are precision cut disks, designed to withstand at least 5400 rpm and some are double that! ... That's their RATED speed so are bound to be able to go higher! By how much though! The bearings they use are also rated for those speeds too.
@@JohnDoe-ex8gf i don't see it as a mistake, but just another technique for building one of these. Especially when solid state drives are becoming more common as included equipment for computers.
Not a tesla turbine. Water has to enter the discs from the outer edges and exit from their center. Another way to verify my claim is to try running it in reverse or as a pump.
That's right Jon, I've just searched the comments to see if anyone picked up on it and you're the only one who did! The TT works best when the output goes through the centre of the blades, that's when maximum efficiency is reached. The spiral effect is the key to it's true nature!
عندما بنى تسلا التور بينات لأول مرة ، كانت أكبر مشكلته هي أن المواد في ذلك الوقت لم تكن قوية بما يكفي لتحمل القوى الناتجة عن دوران حزم الأقراص والأعمدة.إذا دخل السائل من الأعلى وخرج من الأسفل ، فلن يكون دوران وسرعة حزمة القرص أسرع من سرعة السائل. ولكن ، إذا خرج السائل من مركز حزمة القرص ، فإن الطاقة تضاف إلى الطاقة الدورانية للقرص وكلما زادت سرعة دوران القرص ، يبدأ في سحب السائل إلى التوربين. تبلغ سرعة التوربين سرعات أعلى من سرعة السائل. يمكن أن تصل RPM إلى عدة عشرات الآلاف. إذا أضفت توربين تسلا آخر ولكن تم تكوينه بحيث يصبح عادم الأول هو مدخل الثاني (الثاني يصبح مضخة) فإن التوربين الثاني يساعد في إزالة الضغط الخلفي على التوربين الأول لمزيد من الأداء (كفاءة الطاقة)
Who pays the water bill is you or is it him? Many of you Brazilians don't have any creativity or a project to do and show everyone, here you come, you say shit.
El unico detalle que te saltaste fue que el agua no entra y sale tenes que imagínarte que la turbina es como un torbellino toda la fuerza destructiva se concentra en el centro o base el agua tiene que salir por el centro, ahora solo tenes fuerza del agua pero si lo mejoras para que pudiera salir por el centro seria muy bieno y otra cosa espaciadores
Why do people not realize that many of Tesla's designs were genius because he merged competing physical mechanics into a specific intended function. In the case of his turbine its centrifugal forces and drag against pressure, they harmoniously work together to produce torque and RPM's IF the outlet is perpendicular and opposite the direction of rotation for the gas/liquid. This design doesn't have that feature so it looses much of the original design advantages.
The hard part is the nozzle. First of all, you have to take into account the whole piping system, making sure that no pipe, part or fitting has a smaller cross section than the nozzle. You want the highest velocity of the fluid to occur in the nozzle tip entering into the turbine housing, if any part of the piping system has a smaller cross section than the nozzle, then the highest fluid velocity will occur in the piping system and not in the nozzle and you will loose a lot of performance. From the top of my head, for experimental work, use a nozzle with a cross section not larger than a 1/3 of the smallest cross section of the piping system. Forget de Laval-type nozzles, they are hard to fit properly in a dynamic environment (and they don't work with water). Use a simple converging nozzle, a narrowing cone with the smallest cross section entering into the turbine housing. Using a converging nozzle is a fast recipe for success. The easiest way to make a converging nozzle is to take a short copper pipe (brake line or similar) and use a pliers or a vise to flatten the tip of the pipe a bit, maybe half way shut or little more. Try to get as even cross section as possible. When you flatten the tip of the nozzle you essentially reduce the cross section exactly where it is needed. Make a few different ones and see which one has the best performance for the system pressure and flow rate you have. Second important thing is to have shiny mirror like surfaces on the disks to enable the fluid to grab the disks, think of a drop of water on a dry vertical sheet of glass, it sits there defying gravity, you don't want the drop of water run off like on the surface of a green leaf. A rough unpolished disk surface is very bad for performance. For your experimental setup with water, make the disks out of acrylic plastic sheets, they have a glass like surface and will work well with little effort. Use them as is to get a base line performance test. Make a second set of disks and polish them with a fine plastic abrasive used in automotive detailing, buffing of old dull tail lights looking like new shiny ones. Wash off any remaining chemical residue. Third, absolutely crucial, the fluid enters into the turbine through the nozzle along the circumference of the disk pack and exits at the center of the disk pack, out through both sides, or one side, of the turbine. When using water as working fluid you can consider tilting the turbine vertical with the generator on top, having the water drop down. You still need to make sure the water flows through the disk pack and not along the sides. Some minor leakage around the sides of the disk pack are hard to avoid, but make an effort to minimize it. I have considered to use a pipe as an axle for the disk pack and leading the fluid out of the housing through the hollow axle. Keep experimenting! :)
@@mr.construction9846 stop posting non sense emoticons with flowers. I understand your frustration anyway. And I am not a woman to receive flowers from a man. It makes non sense. I didn't even congratulated you for this funny wrong and poor build project. You can't just play with plastic. You need alloy stainless steel or titanium alloy, laser cutting. If you are not good in engineering, stop wasting your time like a child. Good content and smart creators never do videos like you. And you must be a child to post these flowerish emoticons.
There are two elements that are key to the Tesla Turbine:
The first (which you have) is that instead of impellers and blades it uses it uses a stack of disks that are separated by spacers. The rotation of the disk pack is caused by the boundary layer, the viscosity (stickiness) of the disk surface against the moving fluid.
The second (which you missed) is that the fluid (air, water, steam, gas, liquid) is exhausted out the side along the axis of the shaft. This configuration forces the energy of the fluid into a spiral and compresses the energy into the center of the disks and exhausts through center holes. THIS IS WHERE THE MAGIC HAPPENS.
If the fluid enters from the top and exits the bottom, the rotation and the speed of the disk pack will not go faster than the speed of the fluid.
But, if the fluid exits the center of the disk pack the energy gets added to the rotational energy of the disk and the faster the disk rotates, it begins to pull fluid into the turbine. The turbine attains speeds faster than the speed of the fluid. RPM’s can reach multiple tens of thousands.
If your add another Tesla turbine but configured so that the exhaust of the first becomes the Intake of the second (the second becomes a pump) the second turbine helps remove back pressure on the first turbine for even more performance (energy efficiency)
When Tesla first built the turbines, his biggest problem was that the materials of the time were not strong enough to withstand the forces generated by the rotations of the disk packs and shaft.
Thank you for the very useful information, maybe I was too careless when researching it, I will make another more complete one.
Thanks for your explanation. Made a huge difference to my understanding of things. Perhaps you could steer us to a video explanation of how to cut and offset the disks with central discharge openings.
@@wildcoastadventures7535
For more information about the theory
check out these channels:
Lesics,
American Antigravity,
Subject Zero Science,
YTEngineer,
Young DIY ,
Nikola Tesla Research & Development Centre,
rhanz bhach,
Phoenix Turbine Builders Club,
Field Interference,
Amit Mandal,
DesktopDemos,
Jonas Vandenhoudt,
Manuel Mena,
Engineer's Academy,
Engineer Inc.,
@@ghostwheelppk Thank you very much ! That is a library full. Much appreciated.
Additionally seeing how high RPMs were meant to be achieved with this design, make sure you balance it. Vibrations of course will decrease your efficiency, and in a worst case situation, cause your turbine to self destruct, which with high speeds could be trouble for you.
You get not much power out of it....
Yeah
Would it not make sense to use the platters from disk drives? They are precision cut disks, designed to withstand at least 5400 rpm and some are double that! ... That's their RATED speed so are bound to be able to go higher! By how much though! The bearings they use are also rated for those speeds too.
I made a mistake in the video
@@mr.construction9846 Don't worry bro. You learn the most from mistakes. And so did I. So thank you for your mistake. ;)
@@JohnDoe-ex8gf i don't see it as a mistake, but just another technique for building one of these. Especially when solid state drives are becoming more common as included equipment for computers.
@@julito272 it's not the most ideal design, however it does still take advantage of the same principles pioneered by Nikola Tesla.
@@julito272 , do it better.
Real Tesla turbine gets 30000rpm. To reach 20000 or 25000 it's nice an enouth
This model is wrong
Está mal tu modelo... Si mal no recuerdo la salida de agua debe de ser por un costado así provocando las revoluciones por minuto aumentadas
Exacto, este modelo está mal.
bro you use the file in the wrong direction
also computers have perfectly flat platters in the hard drives
I was wrong in this design, and one more thing I can't find that many hard drives
Bro there are millions of people dying without water for drink . you simply wasting like 100 litres per minute. Don't do it bro
And well done for your creativity.
😢😢😢👍👍👍
What this materials of construction?
This model is wrong
Not a tesla turbine. Water has to enter the discs from the outer edges and exit from their center. Another way to verify my claim is to try running it in reverse or as a pump.
Sorry, I made a mistake
That's right Jon, I've just searched the comments to see if anyone picked up on it and you're the only one who did!
The TT works best when the output goes through the centre of the blades, that's when maximum efficiency is reached.
The spiral effect is the key to it's true nature!
That’s nothing!!
Tấm màu xanh bên dưới bạn mua ở đâu vậy ! Cho mình xin đường link !
Bạn cứ lên mấy cái ứng dụng mua sắm tìm theo từ khóa "tấm nhựa fomex" là thấy, hoặc ở những cửa hàng bán vật liệu xây dựng kiểu như trần nhựa, alu...họ cũng có
Berapa daya yg dibutuhkan memutar turbin...dan berapa daya yg dihasilkan motor...untung nggak?
Yang punya channel bukan orang Indo
kkkk, pior seria se fosse mais um projeto de gerador moto continuo.
😢😢😢
Lmao
Exelente pero desperdiciando agus. Debes usar un colector y reusarla
es solo una idea
Can you give plz electric motor specifications?
И какова же эффективность этой турбины, видимо, очень маленькая.... Увы
Он довольно маленький
@@mr.construction9846 раза в 4 чем могло если бы на входе подачу делать толще чем выход :)
This is not a Tesla turbine... The Telsa turbine works with the outlet for fluid in the middle.
Thank you, exactly that, I was confused
Too much air gap
This is not a tesla turbine. This is just an impact turbine.
😢😢😢
ja der abstand ist viel zu groß und sie wird mit dapf betrieben
Esta mal diseñado
Brother how this impellor rotatery postn i dont understand plane blades how r rotating is it fake water pressure cant roatates plane blades
As my video does, it's still wrong. Please do something to let the water in the turbine escape as quickly as possible
Erg leuk maar kostbaar drinkwater gebruiken gaat hem niet worden dus een zinloos idee, tenzij je naast een rivier woont.
Het is een idee, het moet op een plek worden geplaatst met een natuurlijke waterbron
heavy big and laborious good projet , but
Thank you, but this design is bad
congratulations friend great job 👏🏻👏🏻👏🏻👏🏻👏🏻👏🏻👏🏻👏🏻👏🏻🇧🇷
Thanks
Eso está mal construido. La fuga del agua debe de ser desde el centro de los discos
este video tiene un error
Dies Art der Konstruktion ist falsch und nicht optimal, - geringer Wirkunsgrad !
Ich habe mich geirrt
Wowww amazing gaes mantep 🤩🤩🤩🤩🤩🤩🤩🤩
Thank you
Make more video on tesla turbine
Ok 👍👍👍👍👍
water exit should be on the sides right? it works in reverse of that a turbo
I made a new one, check it out
Thats not how it work u build it wrong
I was wrong, my latest video is probably more correct, check it out
SELAMAT ini keren sob ,Kerja yang sempurna sangat luar biasa
Thank you
😅😅😅
👍👍👍🌹😂😂😂
ini chanel.nya orang indonesia ?
Tidak, saya orang Vietnam
This Is not Tesla turbine...
Yes, it's wrong
Duas mentiras. 1 nunca isso nunca daria 26 voltes outra já sair retificada.?
veja e experimente
@@mr.construction9846 já fiz não da certo
sorry this is not tesla turbine
I"m wrong
Что не понятно лопастей нет
Как вода толкает ????
Этот проект неправильный
特斯拉渦輪的特點是往中心的渦流。 這個DIY並無此特點。
這個版本有問題,我還有一些改進的視頻
Plz.dont waste water
That is idea
Tratar de no desprestigiar a tesla porfavor
Me di cuenta del error
26v brp ampere?
This design is wrong so the amp is quite small
@@mr.construction9846 👍
Semoga kedepannya bisa update dengan model terbaru yg mampu menghasilkan efficiency energies yang lebih baik
cool , but uses a lot of water
Thank you, this is idea
I've invented a new wind turbine. Would you be interested in a partnership?
Good Job My Friend I Like Your Work Keep It Up 💗💗💗💗💗💗💗
plz pin me bro
Thank you
عندما بنى تسلا التور بينات لأول مرة ، كانت أكبر مشكلته هي أن المواد في ذلك الوقت لم تكن قوية بما يكفي لتحمل القوى الناتجة عن دوران حزم الأقراص والأعمدة.إذا دخل السائل من الأعلى وخرج من الأسفل ، فلن يكون دوران وسرعة حزمة القرص أسرع من سرعة السائل.
ولكن ، إذا خرج السائل من مركز حزمة القرص ، فإن الطاقة تضاف إلى الطاقة الدورانية للقرص وكلما زادت سرعة دوران القرص ، يبدأ في سحب السائل إلى التوربين. تبلغ سرعة التوربين سرعات أعلى من سرعة السائل. يمكن أن تصل RPM إلى عدة عشرات الآلاف.
إذا أضفت توربين تسلا آخر ولكن تم تكوينه بحيث يصبح عادم الأول هو مدخل الثاني (الثاني يصبح مضخة) فإن التوربين الثاني يساعد في إزالة الضغط الخلفي على التوربين الأول لمزيد من الأداء (كفاءة الطاقة)
Cái tấm trắng a dán hộp chỗ cánh quạt quay đó là tấm gì vậy ạ
Nó là tấm nhựa formex
Desperdício de água só para acender uns lads.
Who pays the water bill is you or is it him? Many of you Brazilians don't have any creativity or a project to do and show everyone, here you come, you say shit.
Faz alguma coisa de útil é mostra para todos nós por favor!👍
Pense positivo irmão
Migliorare la turbina
👍👍👍🌹🌹
特斯拉涡轮,真牛逼。还能这么搞
Thank you
can i use this to and just pay a water bill?
Fraco.
Este projeto está errado
SHOW
👍👍👍
Putaran kurang maksimal , karna terlalu banyak ruang yang kosong untuk cairan yang mudah lolos dan tidak bersinggungan dengan turbin ,
😍😍😍😍😍
👍👍👍
pada model turbin tesla setahu q air keluaran mengalir ke pusat/tengah turbin, mohon maaf jika saya yg keliru🙏
Persis saya salah dalam desain ini
Does it produce enough power to run a pump?
Aa Will you give me this Tesla turbine please? I need it. I am from India, from Uttarakhand.
كم امبير🤗
إنه صغير جدًا
잘 만드렀네요 또 보러 올게요~👍
Thank you
RPM?
This model is wrong so the rpm is only about 150
try tesla turbine turbo electric generator gas engine
Hoho 🤯🤓😰👍
👍👍👍😂😂😂
muy ineficiente demaciado pero bueno ta bueno
👍👍👍👍 Thanks
Surely a laminar flow valve on the water inlet would improve efficiency
cái motor này tên là gì vậy a..e mua không có
Nó là motor trong dàn lạnh điều hòa, bạn cứ lên shopee gõ như vậy là ra
Vâng e cảm ơn ạ
El unico detalle que te saltaste fue que el agua no entra y sale tenes que imagínarte que la turbina es como un torbellino toda la fuerza destructiva se concentra en el centro o base el agua tiene que salir por el centro, ahora solo tenes fuerza del agua pero si lo mejoras para que pudiera salir por el centro seria muy bieno y otra cosa espaciadores
Why do people not realize that many of Tesla's designs were genius because he merged competing physical mechanics into a specific intended function. In the case of his turbine its centrifugal forces and drag against pressure, they harmoniously work together to produce torque and RPM's IF the outlet is perpendicular and opposite the direction of rotation for the gas/liquid. This design doesn't have that feature so it looses much of the original design advantages.
This design is flawed
Where is a gap or hole along the axis. 🤔 This ain't a Tesla turbine.
👍🏻
Thanks
What motor did you use to convert the tesla turbine to an electric power?
DIY safety precautions.. nice build though!
Thanks . I will be careful
Jahajajajaaaa
👍👍👍
this is amazing job.
I like what Usman is showing
Thank you
same bro
I'm always waiting for your latest video.
no work very well mmmmmmmmm....
very good your build free power slectric, i want
It's pretty easy to do, you should probably try it
Wrong design.
Lowest RPM
Kiy
👍👍👍
La verdad, no tiene nada de extraordinario
I'm more appalled the he didn't make any relief cuts
🙄🙄🙄
ភ្លើងខ្សោយខ្លាំង
ដោយសារតែការរចនាខុស សមត្ថភាពគឺតូចណាស់។
Please free mai denge mai ek project per kaam kar raha hu
Tesla turbine needs high rotational speed to produce stable rotation
👍👍👍
Show , fantástico , belo trabalho !!!!!
Thank you
Great job 🎉🎉🎉
Congratulations friend.
Thanks
Que exelente video amigo
what an excellent video friend
Thank you
Woah
It's high speed but I guess it will slow down or stop when it comes to generate electricity for highly watts consuming tools..
I'm thinking of using hard drive disk platters instead of cutting up a case, but this is pretty cool!
what engine did you use, please link.
It is the motor of the air conditioner, look for it by name
Where did you get the coupler for the two shafts?
It's a cardan shaft, I bought it online
good
👍👍👍
espectacular felicitaciones Dios te bendiga gracias por compartir
Thanks 👍👍👍👍🌹🌹🌹
Se as escolas ensinassem princípios de funcionamento de turbinas tipo Pelton, Francis, e Kaplan, ninguém daria crédito a esse tipo de projeto.
Desculpe, eu baguncei o design
The hard part is the nozzle. First of all, you have to take into account the whole piping system, making sure that no pipe, part or fitting has a smaller cross section than the nozzle. You want the highest velocity of the fluid to occur in the nozzle tip entering into the turbine housing, if any part of the piping system has a smaller cross section than the nozzle, then the highest fluid velocity will occur in the piping system and not in the nozzle and you will loose a lot of performance. From the top of my head, for experimental work, use a nozzle with a cross section not larger than a 1/3 of the smallest cross section of the piping system. Forget de Laval-type nozzles, they are hard to fit properly in a dynamic environment (and they don't work with water). Use a simple converging nozzle, a narrowing cone with the smallest cross section entering into the turbine housing. Using a converging nozzle is a fast recipe for success. The easiest way to make a converging nozzle is to take a short copper pipe (brake line or similar) and use a pliers or a vise to flatten the tip of the pipe a bit, maybe half way shut or little more. Try to get as even cross section as possible. When you flatten the tip of the nozzle you essentially reduce the cross section exactly where it is needed. Make a few different ones and see which one has the best performance for the system pressure and flow rate you have.
Second important thing is to have shiny mirror like surfaces on the disks to enable the fluid to grab the disks, think of a drop of water on a dry vertical sheet of glass, it sits there defying gravity, you don't want the drop of water run off like on the surface of a green leaf. A rough unpolished disk surface is very bad for performance. For your experimental setup with water, make the disks out of acrylic plastic sheets, they have a glass like surface and will work well with little effort. Use them as is to get a base line performance test. Make a second set of disks and polish them with a fine plastic abrasive used in automotive detailing, buffing of old dull tail lights looking like new shiny ones. Wash off any remaining chemical residue.
Third, absolutely crucial, the fluid enters into the turbine through the nozzle along the circumference of the disk pack and exits at the center of the disk pack, out through both sides, or one side, of the turbine.
When using water as working fluid you can consider tilting the turbine vertical with the generator on top, having the water drop down. You still need to make sure the water flows through the disk pack and not along the sides. Some minor leakage around the sides of the disk pack are hard to avoid, but make an effort to minimize it. I have considered to use a pipe as an axle for the disk pack and leading the fluid out of the housing through the hollow axle.
Keep experimenting! :)
Thank you for the very useful information you provide 👍👍👍👍👍
This analysis is excellent
Why not combine the two elements and use a Tesla turbine configured as an axial flux generator?
🤣🤣🤣🤣🤣🤣
👍👍👍🌹🌹🌹
@@mr.construction9846 stop posting non sense emoticons with flowers. I understand your frustration anyway. And I am not a woman to receive flowers from a man. It makes non sense. I didn't even congratulated you for this funny wrong and poor build project. You can't just play with plastic. You need alloy stainless steel or titanium alloy, laser cutting.
If you are not good in engineering, stop wasting your time like a child.
Good content and smart creators never do videos like you. And you must be a child to post these flowerish emoticons.
Inveja?!
@@marceloveras681 english
@@FRESNEL_COOKING_SOLAR_OVENS24 are you illiterate can't read?😆
Amazing
Thanks
👍
👍👍👍👍👍
Electromotor that is connected to the disc axle can you provide the type specifications?