The biggest heavy frame industrial gas turbines that Siemens come in at over 500 MW and weight over 500 tonnes. The waste heat coming out the back of those goes through a heat recovery steam generator that creates steam which is then put through one of the steam turbines in this video. The so called combined cycle gas turbine power plant is a gas turbine, a heat recovery steam generator and a steam turbine running in combination and have very high heat efficiencies.
I worked in an industrial steam turbine factory of Siemens partner in China for 12 years. I like the art-of-the-state Siemens- designed steam turbine products so much. The job experience there shaped me a lot and benefited my later job. Simens is great!
What makes it more cool is the fact that the central shaft is made from a 100 tonne single piece of forged steel that was once red hot and squeezed in a hydraulic press into shape.
The Navy Destroyers I served on had the high-pressure and low-pressure steam turbines separate with the main steam entering in at 1200 psi at 975°F, exhausting out through a very large crossover pipe to the low-pressure turbine, then out the bottom to the saltwater condenser to be returned to water, and continue the cycle. Incredible machines….
Those rotors are small... I worked on machinery that overhauls rotors that weigh 250tons.. including lifting them from horizontal to vertical to dismantle / re assemble them and true up all the mating surfaces to minimise supersonic speed steam disruption.
DONT YOU DO THAT TO ME! DONT YOU END ON A CLIFFHANGER!!! For real though, I work with ones half this size daily, had no idea the clearance was so tiny! Some serious precision there!
I wonder, these main propulsion cannot be run by WASTE HEAT of lower than 250 °C of low pressure steam but they(turbine) need at least Main Source of 350°C, medium to high pressure steam to provide the power for 100,000- 300,000 people (250 MW).
Never would have expected 160 bar. Clearance between the stator and rotor is tight, even for the smaller sections. I have a feeling there is a specific start procedure that allows thermal normalization prior to rotation.
Warming of the case and stretch out of the turbine rotor using steam for heat. Also the while this is happening the rotor is on barring gear turning very slow like 1 rpm to allow for the rotor sag between bearings to straighten out
the Siemens rep should have explained each rotating blade sliver is sandwiched between a static blade unit ... these turbines have dozens of these pairs ... the steam escapes through each sliver ... the rotating section forces steam up followed by its static blade forcing steam direction down ... this tension powers the rotation
@@k.fegleyvipergtsr20 Ahh, cool! Which plant is this? I am interested in the technology? Also, do you know the steam temperature and pressure that you operate at?
Wow!! when I was a college freshman I worked in the heating plant for the whole campus. We had a steam turbine-powered generator that could produce 500 KW as a backup power supply. It was far from the technology you just showed us. The patents were from 1905 or so. Could a modern turbine design efficiently power a locomotive? Much heat is wasted in a traditional steam locomotive because the spent steam is not recirculated as feedwater, which makes a lot of maintenance problems for boilers because of accumulating scale. But with modern design techniques and turbine-electric drives what level of efficiency could be achieved?
Are the blades replaceable, as they are in jet engine turbines? Also! What is the change in blade angle and spacing (rotor and stator) from beginning to end?
It's great we can produce mechanical energy at such a low cost it would be nice if the consumers could feel that more. Look how much electric one turbine can make for years with little maintanance.
As a fellow Washingtonian the first thing I thought about when you said you were going to talk to Detlef was the famous UW basketball player, Detlef Schrempf. Maybe I'm the only one though....?
Nerd-up…. These turbines are so heavy that they need to be continuously spun, even slowly, when warm. The rotor is more malleable at higher temperatures, and is susceptible to imbalances.
2:41 Let's see...500 m/s = 0.5 km/s = 1800 km/hr = 1125 miles/hr. And presumably he means at the outer edge of the largest blade. By the looks of it, it's about twice as high as a person, so say 4m diameter or 12m circumference. So at 500 m/s that's about 42 revolutions/s = 2520 rpm. Not all that much, although I suppose it is a lot for such a large part operating a quite a high temperature.
@@SDCustoms what???? Not very much rotational speed???? Man,almost every thermal power plant turbine runs at the speed of 3000 rpm.... And that's a lot... Believe me... And for that huge rotor and blade assembly together... It's a lot.... Think about the perspective... Small things can really rotate very fast... But for that huge assembly, it's fast... So fast
thats so cool ! im looking into solar panels to power my 3d printers in my workshop gotta figure out the numbers first tho but now i really want to try it for the free energy every time i get a new 3d printer i notice my bill go up and up lol
Speed of sound WHERE? In air At normal temp and pressure? Or the local speed of sound inside the turbine which is steam at high temperature and pressure... Which is it?
250Mw no es tanto, montones de centrales en España han tenido turbinas para generar 350Mw y si nos vamos a Manjung IV en Malasia, hay dos turbinas de vapor que mueven generadores de 1000Mw...
Is it just me, or did this interview seem to stop just as it was getting to the interesting part? How will 3D printing become involved in this? I hope to see a companion video the on 3D Printing Nerd channel Real Soon Now(tm).
*"1 megawatt is the equivalent of 10 car engines."* that's actually very helpful for my mind to understand the equivalent power ratio and output. great videos. *kids, listen...learn science, technology, engineering and mathematics.* you'll have nice things, and that affords a more comfortable lifestyle. (And a better quality wife or husband. it's simple, not complicated.) ☀️😎🇺🇸☀️
IAM Sunil tyagi I am working in Bharat heavy electrical limited India in haridwar , State, uttarakhand IAM working stime turbine casing,jbc,LP casing in blade fiting work
TRUEBINE BLIBBY,,, "turbine" just won't do ,, it's "TRUE-BINE", stib BLIBBY chibnine ✌️ YEEEEEE hhaaaaa ,,,,HORSEPOWER BABY !!¡! ,"can you hear them TRUEBINES sang ✌️😝
![Stromae, Pomme - “Ma Meilleure Ennemie” (from Arcane Season 2) [Official Visualizer]](http://i.ytimg.com/vi/1F3OGIFnW1k/mqdefault.jpg)
Incredible! This reminds me of a how it's made episode 😊
Except that there was nothing whatsoever about how it was made.
The biggest heavy frame industrial gas turbines that Siemens come in at over 500 MW and weight over 500 tonnes. The waste heat coming out the back of those goes through a heat recovery steam generator that creates steam which is then put through one of the steam turbines in this video. The so called combined cycle gas turbine power plant is a gas turbine, a heat recovery steam generator and a steam turbine running in combination and have very high heat efficiencies.
I worked in an industrial steam turbine factory of Siemens partner in China for 12 years. I like the art-of-the-state Siemens- designed steam turbine products so much. The job experience there shaped me a lot and benefited my later job. Simens is great!
I too love semens
What impresses me is not the size of the thing. What is impressive is that it actually is small compared to the work it does.
This is deep 😉
im watching this video in loop thinking visiting the Siemens factory myself.
Any references for a tour ?
Dhr Detlef Haje?
What makes it more cool is the fact that the central shaft is made from a 100 tonne single piece of forged steel that was once red hot and squeezed in a hydraulic press into shape.
The Navy Destroyers I served on had the high-pressure and low-pressure steam turbines separate with the main steam entering in at 1200 psi at 975°F, exhausting out through a very large crossover pipe to the low-pressure turbine, then out the bottom to the saltwater condenser to be returned to water, and continue the cycle. Incredible machines….
That right there is a guy who enjoys his job! Im sure his kids are mini turbine engineers from all the free knowledge.
Here we operate 800MW turbines and Main Steam pressure is above 300kg/cm^2
Those rotors are small... I worked on machinery that overhauls rotors that weigh 250tons.. including lifting them from horizontal to vertical to dismantle / re assemble them and true up all the mating surfaces to minimise supersonic speed steam disruption.
What size was the lathe that trued it up
DONT YOU DO THAT TO ME! DONT YOU END ON A CLIFFHANGER!!! For real though, I work with ones half this size daily, had no idea the clearance was so tiny! Some serious precision there!
Crazy precision, and the 3d printing story continues on the main channel tomorrow.
I wonder, these main propulsion cannot be run by WASTE HEAT of lower than 250 °C of low pressure steam but they(turbine) need at least Main Source of 350°C, medium to high pressure steam to provide the power for 100,000- 300,000 people (250 MW).
4:44 And he said 560°C @ 16 MPa (160 barg), that cannot be waste heat.?
Never would have expected 160 bar. Clearance between the stator and rotor is tight, even for the smaller sections. I have a feeling there is a specific start procedure that allows thermal normalization prior to rotation.
Warming of the case and stretch out of the turbine rotor using steam for heat. Also the while this is happening the rotor is on barring gear turning very slow like 1 rpm to allow for the rotor sag between bearings to straighten out
@@paulcurrie7828 Yup that was roughly what I estimated it would take.
And these are the tiny ones. We worked on 1000MW+ too along with similar Westinghouse legacy.
the Siemens rep should have explained each rotating blade sliver is sandwiched between a static blade unit ... these turbines have dozens of these pairs ... the steam escapes through each sliver ... the rotating section forces steam up followed by its static blade forcing steam direction down ... this tension powers the rotation
Very cool, Joel. The size and precision are amazing. Thanks for sharing with us.
With my lengthy background with manual and CNC machining, this is fascinating to me! Thanks Joel.
Glad you liked it, Ron! Plus, that clearance OH WOW!
That gentleman says "correct" in a very wholesome way.
Been there last year - impressive factory. The CNC machines alone blew me away ...
Loved it... where is the sequel man!
Incredibly cool stuff! Glad you could share this with us!!!
I didn't want it to end!!! Can't wait for the additive manufacturing sequel ;) HF
hahahah return five! you'll see it tomorrow on the main channel! :)
yes joel we have 2 steam turbine generators at my job..a 50mw and 25 mw we put out 60mw to the electrical grid..
That's so cool!
@@TechnicallyNerdy yes it is and ours spin at 3600 rpm
@@k.fegleyvipergtsr20
What fuels them? Such small steam plants aren't very common these days.
@@gregorymalchuk272 we burn 3000 tons of msw...munisipal soild waste..
@@k.fegleyvipergtsr20
Ahh, cool! Which plant is this? I am interested in the technology? Also, do you know the steam temperature and pressure that you operate at?
I have always wondered how these giant turbines work. Now, thanks to you I know some. Just some of it. Wish I can see more.
Very cool! I was just inside of one of these the other day at and abandoned Coal Power Plant. Made a pretty cool video of it
Thank you for sharing sir, Happy New Year from Philippines 😇🎉🎊🎊
Wow!! when I was a college freshman I worked in the heating plant for the whole campus. We had a steam turbine-powered generator that could produce 500 KW as a backup power supply. It was far from the technology you just showed us. The patents were from 1905 or so.
Could a modern turbine design efficiently power a locomotive? Much heat is wasted in a traditional steam locomotive because the spent steam is not recirculated as feedwater, which makes a lot of maintenance problems for boilers because of accumulating scale. But with modern design techniques and turbine-electric drives what level of efficiency could be achieved?
Main problem with a closed steam circuit in a locomotive is condensing the steam.
0.4mm between the stator and the rotor on the smallest end 🤯
Gah, left me hanging and got all steamed up.
Next video tomorrow on main channel :)
@@TechnicallyNerdy oh yeah, completely understand why you broke up the topics. Love it.
Thanks Siemens ❤
Are the blades replaceable, as they are in jet engine turbines?
Also! What is the change in blade angle and spacing (rotor and stator) from beginning to end?
How does it possible expanding steam lower than the environmental pressure (vacuum)?
SPIN ME RIGHT ROUND BABY .. RIGHT ROUND !
Wow, so beautiful, nice👍👏, i 'm working in 800 MW, super critical boiler, thermal power plant, GSECL, Gujarat, India🇮🇳🇮🇳
Are these the same ones used in nuclear reactors?
60-Ton turbin. Wow.
It's great we can produce mechanical energy at such a low cost it would be nice if the consumers could feel that more. Look how much electric one turbine can make for years with little maintanance.
Do they have a hydrogen steam energy yet? More important, where can we learn how to repair and operate one?
As a fellow Washingtonian the first thing I thought about when you said you were going to talk to Detlef was the famous UW basketball player, Detlef Schrempf. Maybe I'm the only one though....?
Nerd-up…. These turbines are so heavy that they need to be continuously spun, even slowly, when warm. The rotor is more malleable at higher temperatures, and is susceptible to imbalances.
2:41 Let's see...500 m/s = 0.5 km/s = 1800 km/hr = 1125 miles/hr. And presumably he means at the outer edge of the largest blade. By the looks of it, it's about twice as high as a person, so say 4m diameter or 12m circumference. So at 500 m/s that's about 42 revolutions/s = 2520 rpm. Not all that much, although I suppose it is a lot for such a large part operating a quite a high temperature.
Not very much rotational speed, but think about the massive amount of torque when it's cranking out 250MW.
@@SDCustoms what???? Not very much rotational speed???? Man,almost every thermal power plant turbine runs at the speed of 3000 rpm.... And that's a lot... Believe me... And for that huge rotor and blade assembly together... It's a lot.... Think about the perspective... Small things can really rotate very fast... But for that huge assembly, it's fast... So fast
3000 rpm = 50 Hz which is the power grid for most countries in the world, 3600 rpm = 60 Hz for North America
thats so cool ! im looking into solar panels to power my 3d printers in my workshop gotta figure out the numbers first tho but now i really want to try it for the free energy
every time i get a new 3d printer i notice my bill go up and up lol
Please send some steam turbines to South Africa, we desperately need more power
RUclips recomended this video after the engineerguy video about turbine invention. :D
I wonder what is the volume of steam needed to run it 24 hours?
Bravo! Excellent video!
Wow! Nice! Thumbs up!!! Thanks!
Speed of sound WHERE? In air At normal temp and pressure? Or the local speed of sound inside the turbine which is steam at high temperature and pressure... Which is it?
250Mw no es tanto, montones de centrales en España han tenido turbinas para generar 350Mw y si nos vamos a Manjung IV en Malasia, hay dos turbinas de vapor que mueven generadores de 1000Mw...
Any miniaturisation of steam turbine?
Supercritical steam is awesome
Is it just me, or did this interview seem to stop just as it was getting to the interesting part? How will 3D printing become involved in this? I hope to see a companion video the on 3D Printing Nerd channel Real Soon Now(tm).
Heh, you guessed it! It’s out on the main channel in 21 hours! (2pm pst Sunday)
Is there an advantage to not having compound turbines?
Wait.. where's the 3D printing? It seemed like we were about to see that and then the video abruptly ended lol
Really cool to see
Extremely nerdy video, very interesting! Can't wait for the follow-up video!
Wait, no, give me more... Fantastic Joel, looking forward to the next instalment. Cheers, JAYTEE
*"1 megawatt is the equivalent of 10 car engines."*
that's actually very helpful for my mind to understand the equivalent power ratio and output.
great videos.
*kids, listen...learn science, technology, engineering and mathematics.*
you'll have nice things, and that affords a more comfortable lifestyle. (And a better quality wife or husband. it's simple, not complicated.)
☀️😎🇺🇸☀️
1 MW is 1340 HP so 250 MW would be 335,000 HP 🤯
Very impressive
Impressive!
THIS is how you make power.
Görlitz? Damn you were very close to me.
I really love the town!
160 Bar is about 2300psi 😳
I m in love with this stuff
You have to admire German quality! Very very impressive!
Very True
So incredible information
Glad you think so!
The germans know their stuff
Does anyone perhaps know where i can guy miniature turbine models?
Can they make hydrogen steam turbines ?
How many jigawatts do they produce?
Definitely not 1.21
@@TechnicallyNerdy #notinterested #longlivemarty
How much is the cost to buit that king of power plant
not so big, we ran 660 Mw units
565 degree Celsius
I always enjoy watching your videos. I usually don't do this but I came as fast as a steam turbine n was first. :)
250 kWt for 60 kg turbine... interesting
How much unit like this cost
Excelent
IAM Sunil tyagi I am working in Bharat heavy electrical limited India in haridwar , State, uttarakhand IAM working stime turbine casing,jbc,LP casing in blade fiting work
Görlitz :)
German engineering at its best
300000 thanks? whats that ?
Im offended, what do you mean by nerdy
Come on, just a teaser?
Yes :) next episode today!
huh ? so its just a teaser? p.p
Heh. Next episode today on main channel.
Detlef 3.6 roentgen not great not terrible if you get this like
Bhel making in hp turbine super critical 1000 magawat
Do they also rotate 3000rpm and how many tons is the rotor
teslas greatest invention....
Second!!!!!!!!!
Turban? Speak proper English! Where I worked , we made tur-BINES
Where I work, a plant that actually operates these things, we pronounce it as 'tur-bin'.
TRUEBINE BLIBBY,,, "turbine" just won't do ,, it's "TRUE-BINE", stib BLIBBY chibnine ✌️ YEEEEEE hhaaaaa ,,,,HORSEPOWER BABY !!¡! ,"can you hear them TRUEBINES sang ✌️😝