When I was a kid (I’m 70) I used to love visiting my Grandparents in Wayne ,Nebraska. I’d have my bedroom windows open as there was no A/C . And at night I’d hear the steam whistles from way off as they got closer or farther away . Such a wonderful but lonesome sound. Thanks for your video.
What a fantastic memory. I took my 5 year old daughter to see a steam engine on a heritage railway today. She loved it. We've ridden on it before. It's fantastic because at times in summer I can hear a distant steam engine going off into the distance and the whistle being used.
@@erikschiller7210 A term used by railroad employees and sometimes other railfans to describe people who foam at the mouth at trains. Rabid railfans. Train weebs. People with such high passion for everything railroad that they becomes obnoxious to everyone around them.
This is so high quality. 800 views on something this great is an atrocity. Would have loved to see some details on the boiler though. That part has always puzzled me.
The boiler is a mystery to me too. I'd love to know more about it too. By the way, it's 9 days since you commented and views are up from 800 to 14965 which is more like it.
@@bahoonies oh wow! Thanks for the update. Guess the youtube algorithm that helped me find this channel is doing its job :) No word from the author about a potential boiler deep-dive though >_
I would argue that it actually isn’t outdated. For passenger transport it is. But so is diesel for that purpose. Steam trains are actually more powerful than diesel trains and are actually generally simpler in design and function. However, the problem is energy waste. Diesel engines are more fuel efficient. But steam engines also use cheaper fuel. You can go back and forth though.
they only use for passenger transport. It not cost effective for freight. yeh they waste energy. Two way to save is has anther piston stage that allow more expansion for the steam. Since what steam locomotion use have constant pressure. 2nd have air intake regenerator. SO exhausted gas and steam heat up the intake air. after all the blast pipe allows for such thing to work because it create draft that pulls air in. the air intake regenerator will recapture heat and send it back to fire box.
what a fun video! i've always been a fan of steam trains but never knew quite exactly how they worked, this video covered my thoughts regarding the design of these locomotives. it's also fun to mention how steam locomotives use all the major elements of nature to run (fire, water, air for steam, and coal/oil for earth!)
I learned a lot. Thanks. Correction: Coal was the dominant fuel for almost the entire history of the steam locomotive, not oil. Engines were getting converted to oil as they were fading out, being replaced by the diesel electric locomotives.
@@frequentlycynical642 Wood was also used in places where it was more readily available and cheaper than coal, such as Russia and the Nordic countries. But even in those places coal was preferred if available, as it carries more energy per volume and also produces less ash and sparks, reducing the risk of forest fires caused by steam engines.
In the U.S., after the early days of predominantly wood, the fuel of choice tended to be what was most available and cost effective regionally. Generally (very generally), this meant coal in the east and oil in the west.
There are pictures of locomotives wrecked on Mars. The Freemasons spliced us in, we didn't design any of it, and we will end up going back to the old ways (our space age ancestors had better knowledge than us)
After watching many videos on the working of steam locomotives, this video gave me deeper insights into its functioning. Thanks for making it insightful.
Nice. Your cutaway of the end of superheater flues cleared up a lot for me. Small fire tubes, out of contact w the water, within a big fire tube. The combo of big tube's low surface area for their volume, and the fact that the inner tubes are not in contact w the boiler water, means the air has tons of have tons of heat as it enters the superheater.
The engineering that went into the design and building of these beasts has always amazed me. We have 3 of them at our local museum and they are massive! The info board on one said it could do 160kmh!!! You think of how fast steam and pistons are moving at that speed. 😳
Thank you for this video. I enjoyed it very much. Not only was it clear, I really learnt something. Very very fascinating, well explained and engaging.
Inventing a successful steam engine locmotive is a marvellous skillful and excellent work towards perfection of mechanical engineering,,,in those days there were no hitech and precise equipments,,still the steam locomotive was invented with ease,,,Regards to those every brilliant minded inventors and constructors...who gave these big steam giants to us for our service,,,,🎉🎉🎉🎉
Yeah I have to say I've never even heard of an oil powered stream locomotive. All footage of steam trains I have seen online and even ones I have seen irl have all been coal powered, with one of the engineers needing to shovel coal into the furnace constantly.
You're right most used coal since it was much better than firewood and largely available in Europe, but then Oil came and for a brief moment of time it was cheaper to convert and still use them.
Most were wood prior to 1880, a few logging lines in the Pacific Northwest and in the Deep South remained with wood into the 1930s. Coal came about in the 1880s (some roads adopted it even earlier, such as Union Pacific). Oil appeared on SOME roads as early as the 1900s, mainly western roads such as the Southern Pacific, ATSF (post 1920s), Northern Pacific, etc. Some eastern roads burnt oil (most were coal) to comply with various ordinances or other reasons (such as the Florida East Coast Line post-1910). By that same manner, some Western roads burnt coal (such as the Denver & Rio Grande, later D&RGW post 1921).
Even Though I'm just a Nerd, I'm gonna point out some things you missed: 1: About The Airbrakes, Pressure Releases it rather than Bite 2:The Steam powered bell does not really move the whole bell, It only moves the Clapper 3: You Missed on How the Injector Works is a steam pump that sucks Water to the Boiler(It's kinda hard to explain without a visual aid) 4:Please A More Chimney Boy Whistle :)
Some bells had the entire yoke swing, called a piston ringer. This was standard from 1906 until the 1940s. It was only later that the clapper ringers became common. There are also several different types of injectors, but all use a fairly similar principle of creating a vacuum and water rushing into fill said vacuum, simply some require steam to lift the water, whilst others use gravity.
That is not quite true. The air in each car does the real work. Reducing air in the train line activates the system. Also locomotives have a separate system than the train brakes. It is always direct air.
Well the bell wouldn't have been activated by steam anyways. It would have been air, or a pull cord. And yes they had two types one that made the entire bell swing or just a clapper.
I love steam engines! They are indeed marvelous pieces of engineering and cold starting a more modern engine is quite a time consuming process, in part because steam literally drives everything on that engine and there are a ton of valves and so on that have to be opened and closed in a particular order to do a proper startup. The one thing that railroads could have benefited from, which was never done because it was decided that it would be difficult to integrate, is multi-stage pistons. Here, we have an illustration of a typical two-stroke piston. Once the steam is used, it is exhausted or recirculated through a condenser (rarely) prior to being returned to the tank. The steam that is exhausted still has a good deal of energy in it. By increasing the surface area of a successive piston and reducing the stroke length, you can still take advantage of that extra energy to operate a second, third, or even a fourth stage before reclaiming the water. Multi-stage steam engines (not locomotives, just general engines) are fascinating and significantly increase the engine efficiency, although the efficiency and power of any steam engine is still far below that of an internal combustion engine, which is why they aren't around anymore. However, one thing steam engines have in SPADES is torque which made the ideal for certain categories of devices.
The opening eye catcher at 0:10 shows the flowers getting pushed in the wrong direction... It's like they get sucked into the oncoming train instead of getting dragged into the train's headwind.
Great video and very informative. Something I do feel was slightly glossed over is the importance of the water valves that control the introduction of water into the boiler. Too much water and the fuel to steam conversion rate becomes suboptimal. However this pales in comparison to not enough water which is when steam engines tend to fail catastrophically. It wasn’t just the higher efficiency of DE-Engines that put the steam engine on the shelf, the higher safety Standard also contributed massively.
There is one preserved railway here in Australia I love and that's the Puffing Billy railway. I've also gotten into the Wilesco brand of steam toys that run on fuel tablets. Another thing that my partner and I like doing is going to any steam rallies So to me steam power is not outdated Love the video ❤
You missed a visual description of the blast pipe operating. Which makes the classic chuff chuff. The sudden release of used, but still under pressure steam, surging from the driving cylinder to the blast pipe where it mixes with the smoke and explodes up the smoke stack. To me, this surge of waste steam from the blast pipe up the smoke stack in synchrony with the drive rods is the very essence of a railway steam locomotive. The sound changes intimately with how hard the engine is working. Seeing this animated would have been awesome. This vented steam is used to create draft. It is also why steam locomotives use so much water as the used steam is lost and not re-condensed. Water replenishment stops are more frequent than coaling stops. Otherwise it is a great video. 🙂
Is a steam engine really outdated? Or do we just don't want to use the concept anymore? We can use more than just coal as heating of steam right? Nuclear?
You see there's a problem with nuclear power for one nuclear produces more exhaust than like say propane also the power would likely melt the metal sheets too quickly resulting a massive explosion also the nuclear energy is very hard to put out meaning just putting out the like coal will not put the fire out immediately so basically using nuclear power on a steam locomotive is a bad idea
Some of the activity of the valve gear is not discussed here. And it can get a bit complicated and there are many valve gear designs besides the one shown here (which is the Walschaerts design). But one thing may be worth mentioning. If you look at the side view, the rod from the piston valve does not connect directly to the rod providing the push/pull motion. Instead it attaches just a little bit down a vertical rod. The push pull starting from the eccentric rod motion acts on the top of that vertical rod. The "crosshead" which is attached to the steam piston motion is attached to the bottom of that vertical rod with a short little horizontal rod. This effects the timing of the piston valve a bit like distributor advance on an automobile engine. It starts the admission of steam to the piston just a little bit before the piston is at the end of its stroke. In the video, you can see the slight timing difference when the piston valve and steam piston reach the ends of their travel.
One omission is the ejector connected to the bottom of the 'smoke stack.' As steam leaves the pistons it vents upward in the smokebox thru the stack. The ejector creates a suction in the smokebox that draws the firebox smoke thru the boiler. Without an ejector, there would be no flow thru the boiler.
First-time channel viewer, a bit skeptical since so many descriptions of steam engines get the details wrong, and then I heard -- "Johnson bar" -- OK, this guy's not so bad :)
Steam is a rather unique and interesting thing, as we have used it for many different operations. Even today to generate electricity steam is used by either coal, natural gas or nuclear "pellets" to create the heat to create steam and use it to spin generators for making electricity. Even the ancient Greeks had steam engines.
Great video but I would like to mention that steam locomotives are sometimes pulled out of storage/museums for clearing the train tracks of snow and ice because they are/were better at the task than the modern trains at the time (or there wasn't enough locomotives that were capable at the time). Happened in Sweden in 7 to 12 years ago, can't remember it to well because I was a child at the time and couldn't find any articles from a quick search.
Very interesting to talk about to talk about the other components. I would like to see someone do a video of a tank engine without steam cylinders on the side.
The names of wheel arrangements shown are correct and are the most commonly used names. However, specific railroads sometimes used a different name. For example, the Southern Pacific was NOT going to call its 2-10-2's "Santa Fe's" (Santa Fe being a rival). So, they called them "Decapods" even though that is more correctly a 2-10-0. Usually, they shortened it to just "Decs." The 4-8-4 probably had the most names. "Niagra" on the New York Central. "Greenbrier" on the Chesapeake & Ohio. "Pocono" on the Delaware, Lackawanna & Western. "Wyoming" on the Lehigh Valley. "Dixie" on the Nashville, Chattanooga & St Louis. "Golden State" on the Southern Pacific. "Potomac" on the Western Maryland.
I believe that they also use the steam engine not just for moving the train but for braking as well such as going downhill and as an aid for making emergency stops , It's all about how you work the valves and by doing so , You can achieve dynamic braking , Similar to a Jake brake on it semi truck Back when I was a kid I was at Cedar Point riding the train to Frontier town and it was powered by a steam engine and the engineer had to make an emergency stop because an animal was on the track , So the engineer worked with the valves to stop the wheels on the engine itself and besides applying the brakes and locked up the wheels on the engine I can imagine how hard it is to operate a steam engine because you have to deal with the unbearable heat coming from the firebox , You have to keep a constant eye on every pressure gauge besides watching down the track and constantly working the valves when you approach a hill going up or down I can also imagine how hard it was for the engineer back in the old West during the summer in certain areas where temperatures topped out at 100 degrees plus
While they are mostly nostalgia, UP 4014 recently pushed a broken down freight train WHILE still pulling its fully loaded tour train. Steam may be old fashioned but it’s still got it 💪
When I was a kid (I’m 70) I used to love visiting my Grandparents in Wayne ,Nebraska. I’d have my bedroom windows open as there was no A/C . And at night I’d hear the steam whistles from way off as they got closer or farther away . Such a wonderful but lonesome sound. Thanks for your video.
What a fantastic memory. I took my 5 year old daughter to see a steam engine on a heritage railway today. She loved it. We've ridden on it before.
It's fantastic because at times in summer I can hear a distant steam engine going off into the distance and the whistle being used.
I wish i could experience that! Only in my fantasy and i still feel so cozy!
As a foamer myself, knowing how a steam locomotive works, I have to say this video is very nicely and well done.
I tried building a steam engine. Valve timing was an issue I had a rough time with.
I’ve heard the term foamer tons recently, what’s it mean?
@@erikschiller7210 A term used by railroad employees and sometimes other railfans to describe people who foam at the mouth at trains. Rabid railfans. Train weebs. People with such high passion for everything railroad that they becomes obnoxious to everyone around them.
I'm not a foamer. I just like trains
As a steam locomotive myself, I have to agree.
I learned two things!
First is the super heated steam pipe placement, and the second was the sand storage!
Great video!
Me too 😊
Me too 😊
You have superheated sand😂
these videos are so high quality.
cant wait until they get more popular and you get the recognition you deserve
@johanneshartman4618Jesus said, may allah guide you to the right path alhamdulillah 🤲🏻
@@LanaaAmor
😂😂😂😂🤦
@johanneshartman4618 cope
This is so high quality. 800 views on something this great is an atrocity.
Would have loved to see some details on the boiler though. That part has always puzzled me.
The boiler is a mystery to me too. I'd love to know more about it too. By the way, it's 9 days since you commented and views are up from 800 to 14965 which is more like it.
@@bahoonies oh wow! Thanks for the update. Guess the youtube algorithm that helped me find this channel is doing its job :)
No word from the author about a potential boiler deep-dive though >_
Drachinafel has an excellent video on Naval boilers .
Well look at it now, just a month later and 326000 views.
@@mrwdpkr5851 доброго времени
суток ссылку можно
That piston demonstration is way better than any other that I've seen. Most diagrams just don't describe the steam flow so well.
Nor does this one. It completely omits the path of superheated steam and fails to explain its advantages.
@johanneshartman4618 None of us are here to be lectured by evangelical zealotry.
@johanneshartman4618 Praise Jesus, our Lord.
@johanneshartman4618 Jesus said I can sell my daughter into slavery. What do you think is a fair price in today's market?
I would argue that it actually isn’t outdated. For passenger transport it is. But so is diesel for that purpose. Steam trains are actually more powerful than diesel trains and are actually generally simpler in design and function. However, the problem is energy waste. Diesel engines are more fuel efficient. But steam engines also use cheaper fuel. You can go back and forth though.
they only use for passenger transport. It not cost effective for freight. yeh they waste energy. Two way to save is has anther piston stage that allow more expansion for the steam. Since what steam locomotion use have constant pressure. 2nd have air intake regenerator. SO exhausted gas and steam heat up the intake air. after all the blast pipe allows for such thing to work because it create draft that pulls air in. the air intake regenerator will recapture heat and send it back to fire box.
what a fun video! i've always been a fan of steam trains but never knew quite exactly how they worked, this video covered my thoughts regarding the design of these locomotives. it's also fun to mention how steam locomotives use all the major elements of nature to run (fire, water, air for steam, and coal/oil for earth!)
It’s honestly surprising how simple the system is, very fascinating.
Excellent video. It makes one realize how much incredible engineering went into such a “primitive” locomotive.
To me the most insane/amazing part of this whole video, is that someone actually designed and created this beautiful peace of machinery.
I learned a lot. Thanks.
Correction: Coal was the dominant fuel for almost the entire history of the steam locomotive, not oil. Engines were getting converted to oil as they were fading out, being replaced by the diesel electric locomotives.
I'm not sure on this one but when the steam engine came out , Didn't they use wood for fuel first and then went to coal ?
@@ironmartysharpe8293 Sure. Coal wasn't mined much in the very early 19th century.
@@frequentlycynical642 Wood was also used in places where it was more readily available and cheaper than coal, such as Russia and the Nordic countries. But even in those places coal was preferred if available, as it carries more energy per volume and also produces less ash and sparks, reducing the risk of forest fires caused by steam engines.
In the U.S., after the early days of predominantly wood, the fuel of choice tended to be what was most available and cost effective regionally. Generally (very generally), this meant coal in the east and oil in the west.
There are pictures of locomotives wrecked on Mars. The Freemasons spliced us in, we didn't design any of it, and we will end up going back to the old ways (our space age ancestors had better knowledge than us)
After watching many videos on the working of steam locomotives, this video gave me deeper insights into its functioning. Thanks for making it insightful.
This is one of the best animations I've seen. The detail is really remarkable!
INCREDIBLE!!! i have a strong feeling this channel is going to be VERY big soon, and you deserve it! bravo for the amazing videos!!!
I share this feeling! The animations and narration are just FAR too good! My respects!
Only if he can speak clearer English…
Modern CGI and old fashioned steam power...... intriuging combination. A good, well made video.
Nice. Your cutaway of the end of superheater flues cleared up a lot for me. Small fire tubes, out of contact w the water, within a big fire tube.
The combo of big tube's low surface area for their volume, and the fact that the inner tubes are not in contact w the boiler water, means the air has tons of have tons of heat as it enters the superheater.
This is such a good concept for a channel, amd so nicely executed
This is by far the best video I have found explaining how steam locomotives work. 10/10
Holy steam god
I never thought it was this complicated
What a marvel of engineering
heat water to drive pistons with steam
The engineering that went into the design and building of these beasts has always amazed me. We have 3 of them at our local museum and they are massive! The info board on one said it could do 160kmh!!! You think of how fast steam and pistons are moving at that speed. 😳
Thank you for this video. I enjoyed it very much. Not only was it clear, I really learnt something. Very very fascinating, well explained and engaging.
your channel is a hidden gem, dude. I love it.
beautiful animations and very well explained!
Well done! I learned from this vid. Always thought steam locomotives were magnificent machines. Thanks for the vid- this clearly took a lot of work.
Thanks, this is very nice to watch and explains things really well.
Very good graphics and an excellent narration/explanation. Well done, Sir.. beautiful animations and very well explained!.
Very good graphics and an excellent narration/explanation. Well done, Sir.
wow, this video is absolutely amazing and extremely informative. I finally think I kinda grasp steam locomotives now!
Best video I’ve seen about how a steam train works and this isn’t even a train channel
Always wondered about this! Turns out it's actually a "1-cycle" engine, so cool.
Thanks for the video
This is a great and simple introduction to stream locomotive principles. Great job!
Steam locos are educational, magnificent and nostalgic . .
best explained and animated video, well done :D
Pretty good animation, and good to learn the basics. If you wanna learn more complex stuff, not so much
Great video, I am a newer foamer, and I learned some new things, and this video refined how I explain steam locos to non-railers lol
My granpda owned a 16 inch guage Hudson Steam Locomotive. I loved that thing and Ive always windered what a breakdown would look like!
Steam locomotives are always lovable 👌🏾❤
Great vid, also those are some nice renders! Especially the flower at the intro ❤
Dude, you did an amazing job on this video
Being a steam freak, this is always a good watch
Inventing a successful steam engine locmotive is a marvellous skillful and excellent work towards perfection of mechanical engineering,,,in those days there were no hitech and precise equipments,,still the steam locomotive was invented with ease,,,Regards to those every brilliant minded inventors and constructors...who gave these big steam giants to us for our service,,,,🎉🎉🎉🎉
In Vienna Museum of Science and Technology you can see such a cut in real, very impressive, everything in motion and explained several times a day
When from one video I learned more about steam locomotives than I knew before from other sources.
Watched 1 video of the "Big Boy" push a diesel engine up a hill and get recommended this..... I'm not disappointed
Let that whistle go loud and long! Let the world know that steamers are here to stay!
I need a source on that oil thingy. Always thought that most were coal fired
Yeah I have to say I've never even heard of an oil powered stream locomotive. All footage of steam trains I have seen online and even ones I have seen irl have all been coal powered, with one of the engineers needing to shovel coal into the furnace constantly.
Theres info on google, i too have just learned something new today mind blown. I thought they all used coal too
Some Engines, Actually Use Oil or Even in the Southwest USA they use literal logs or firewood
You're right most used coal since it was much better than firewood and largely available in Europe, but then Oil came and for a brief moment of time it was cheaper to convert and still use them.
Most were wood prior to 1880, a few logging lines in the Pacific Northwest and in the Deep South remained with wood into the 1930s. Coal came about in the 1880s (some roads adopted it even earlier, such as Union Pacific). Oil appeared on SOME roads as early as the 1900s, mainly western roads such as the Southern Pacific, ATSF (post 1920s), Northern Pacific, etc. Some eastern roads burnt oil (most were coal) to comply with various ordinances or other reasons (such as the Florida East Coast Line post-1910). By that same manner, some Western roads burnt coal (such as the Denver & Rio Grande, later D&RGW post 1921).
Thank you. Well done. After a recent visit th the RR Museum in Sacramento, CA , I was curious on the mechanics of operation. Good explanation. 2024
Thank you for the explanation!
I had a basic understanding, but this clarified a lot.
New subscriber 😉
As far as I'm concerned the steam locomotive was the esthetic peak of industrial engineering.
Even Though I'm just a Nerd, I'm gonna point out some things you missed:
1: About The Airbrakes, Pressure Releases it rather than Bite
2:The Steam powered bell does not really move the whole bell, It only moves the Clapper
3: You Missed on How the Injector Works is a steam pump that sucks Water to the Boiler(It's kinda hard to explain without a visual aid)
4:Please A More Chimney Boy Whistle :)
Some bells had the entire yoke swing, called a piston ringer. This was standard from 1906 until the 1940s. It was only later that the clapper ringers became common. There are also several different types of injectors, but all use a fairly similar principle of creating a vacuum and water rushing into fill said vacuum, simply some require steam to lift the water, whilst others use gravity.
That is not quite true.
The air in each car does the real work. Reducing air in the train line activates the system.
Also locomotives have a separate system than the train brakes. It is always direct air.
Well the bell wouldn't have been activated by steam anyways. It would have been air, or a pull cord. And yes they had two types one that made the entire bell swing or just a clapper.
@@chasekostiuk4263some German steam locomotives had steam powered bells
@@samanli-tw3idand that isn’t a German steam engine so no it didn’t have that
1am and I have work in 6 hours. Good thing I’m learning about this instead of sleeping
That got me all steamed up, well done.
Don’t forget to ring your bell before you depart
finally some useful content in the era of garbage media
mark my words.. this channel gonna blow up hard soon
This is a great video. I learned a lot from it. Thanks for doing this!
Thanks for putting this up.
0:16 OUTDATED? You outta ya mind fr
He’s right unfortunately
I love steam engines! They are indeed marvelous pieces of engineering and cold starting a more modern engine is quite a time consuming process, in part because steam literally drives everything on that engine and there are a ton of valves and so on that have to be opened and closed in a particular order to do a proper startup.
The one thing that railroads could have benefited from, which was never done because it was decided that it would be difficult to integrate, is multi-stage pistons. Here, we have an illustration of a typical two-stroke piston. Once the steam is used, it is exhausted or recirculated through a condenser (rarely) prior to being returned to the tank. The steam that is exhausted still has a good deal of energy in it. By increasing the surface area of a successive piston and reducing the stroke length, you can still take advantage of that extra energy to operate a second, third, or even a fourth stage before reclaiming the water. Multi-stage steam engines (not locomotives, just general engines) are fascinating and significantly increase the engine efficiency, although the efficiency and power of any steam engine is still far below that of an internal combustion engine, which is why they aren't around anymore. However, one thing steam engines have in SPADES is torque which made the ideal for certain categories of devices.
The fact that you used a ATSF engine and got it right, well done!
There's a spelling mistake in the section on wheel arrangements; "challanger" should be "challenger".
The opening eye catcher at 0:10 shows the flowers getting pushed in the wrong direction... It's like they get sucked into the oncoming train instead of getting dragged into the train's headwind.
It probably has something to do with air displacement of low and high pressure areas
really nice presentation, good job with the 3D stuff ;)
your gonna blow up soon. i know.
I sure hope he does
VERY INFORMATIVE, GREATLY ENJOYED! THANK YOU 👍
amazing content you will make it far
Nicely you have explained ❤❤❤🎉
This was wonderful. Thank you.
Very interesting to see how the locomotive works
Great video and very informative. Something I do feel was slightly glossed over is the importance of the water valves that control the introduction of water into the boiler. Too much water and the fuel to steam conversion rate becomes suboptimal. However this pales in comparison to not enough water which is when steam engines tend to fail catastrophically.
It wasn’t just the higher efficiency of DE-Engines that put the steam engine on the shelf, the higher safety Standard also contributed massively.
Great video and great explanation. 👏👏👏
This is real mechanical engineering. A marvel
This is an excellent video on the subject!! Well done/
There is one preserved railway here in Australia I love and that's the Puffing Billy railway.
I've also gotten into the Wilesco brand of steam toys that run on fuel tablets.
Another thing that my partner and I like doing is going to any steam rallies
So to me steam power is not outdated
Love the video ❤
Kinds of valve gear:
Walschearts valve gear - the first one
Baker valve gear - reversing yoke
Stephenson valve gear - 1 piston and 2 180 degree pistons
Hack worth valve gear - crank shaft connect up top
You missed a visual description of the blast pipe operating. Which makes the classic chuff chuff. The sudden release of used, but still under pressure steam, surging from the driving cylinder to the blast pipe where it mixes with the smoke and explodes up the smoke stack.
To me, this surge of waste steam from the blast pipe up the smoke stack in synchrony with the drive rods is the very essence of a railway steam locomotive. The sound changes intimately with how hard the engine is working.
Seeing this animated would have been awesome.
This vented steam is used to create draft. It is also why steam locomotives use so much water as the used steam is lost and not re-condensed. Water replenishment stops are more frequent than coaling stops.
Otherwise it is a great video. 🙂
The graphics are really good. Now all I need is a narrator with a nice, smooth American accent.
Excellent thoroughly informative. 👍
Perfect explanation.
Is a steam engine really outdated? Or do we just don't want to use the concept anymore? We can use more than just coal as heating of steam right? Nuclear?
You see there's a problem with nuclear power for one nuclear produces more exhaust than like say propane also the power would likely melt the metal sheets too quickly resulting a massive explosion also the nuclear energy is very hard to put out meaning just putting out the like coal will not put the fire out immediately so basically using nuclear power on a steam locomotive is a bad idea
Some of the activity of the valve gear is not discussed here. And it can get a bit complicated and there are many valve gear designs besides the one shown here (which is the Walschaerts design). But one thing may be worth mentioning. If you look at the side view, the rod from the piston valve does not connect directly to the rod providing the push/pull motion. Instead it attaches just a little bit down a vertical rod. The push pull starting from the eccentric rod motion acts on the top of that vertical rod. The "crosshead" which is attached to the steam piston motion is attached to the bottom of that vertical rod with a short little horizontal rod. This effects the timing of the piston valve a bit like distributor advance on an automobile engine. It starts the admission of steam to the piston just a little bit before the piston is at the end of its stroke. In the video, you can see the slight timing difference when the piston valve and steam piston reach the ends of their travel.
@johanneshartman4618wrong video
I cant explain it but these videos feel like elevator music and it’s so good
I loved Your Thomas intro.
amazing animation! thanks
Well information ❤❤
One omission is the ejector connected to the bottom of the 'smoke stack.' As steam leaves the pistons it vents upward in the smokebox thru the stack. The ejector creates a suction in the smokebox that draws the firebox smoke thru the boiler. Without an ejector, there would be no flow thru the boiler.
I thought I will make fun of this for not having the right terminology but I was sterilized to see this is 100% accurate
First-time channel viewer, a bit skeptical since so many descriptions of steam engines get the details wrong, and then I heard -- "Johnson bar" -- OK, this guy's not so bad :)
Very nicely done!
Outdated? A few days ago 4014 proved his worth once more.
Steam is a rather unique and interesting thing, as we have used it for many different operations. Even today to generate electricity steam is used by either coal, natural gas or nuclear "pellets" to create the heat to create steam and use it to spin generators for making electricity. Even the ancient Greeks had steam engines.
Very good edit👍
Great video but I would like to mention that steam locomotives are sometimes pulled out of storage/museums for clearing the train tracks of snow and ice because they are/were better at the task than the modern trains at the time (or there wasn't enough locomotives that were capable at the time).
Happened in Sweden in 7 to 12 years ago, can't remember it to well because I was a child at the time and couldn't find any articles from a quick search.
😮 Fantástico vídeo. ¡GRACIAS!
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So cool, never knew they used sand for better traction
Very interesting to talk about to talk about the other components. I would like to see someone do a video of a tank engine without steam cylinders on the side.
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So nice video.
I love this video.
The names of wheel arrangements shown are correct and are the most commonly used names. However, specific railroads sometimes used a different name. For example, the Southern Pacific was NOT going to call its 2-10-2's "Santa Fe's" (Santa Fe being a rival). So, they called them "Decapods" even though that is more correctly a 2-10-0. Usually, they shortened it to just "Decs." The 4-8-4 probably had the most names. "Niagra" on the New York Central. "Greenbrier" on the Chesapeake & Ohio. "Pocono" on the Delaware, Lackawanna & Western. "Wyoming" on the Lehigh Valley. "Dixie" on the Nashville, Chattanooga & St Louis. "Golden State" on the Southern Pacific. "Potomac" on the Western Maryland.
I believe that they also use the steam engine not just for moving the train but for braking as well such as going downhill and as an aid for making emergency stops , It's all about how you work the valves and by doing so , You can achieve dynamic braking , Similar to a Jake brake on it semi truck
Back when I was a kid I was at Cedar Point riding the train to Frontier town and it was powered by a steam engine and the engineer had to make an emergency stop because an animal was on the track , So the engineer worked with the valves to stop the wheels on the engine itself and besides applying the brakes and locked up the wheels on the engine
I can imagine how hard it is to operate a steam engine because you have to deal with the unbearable heat coming from the firebox , You have to keep a constant eye on every pressure gauge besides watching down the track and constantly working the valves when you approach a hill going up or down
I can also imagine how hard it was for the engineer back in the old West during the summer in certain areas where temperatures topped out at 100 degrees plus
This is well done thankyou
While they are mostly nostalgia, UP 4014 recently pushed a broken down freight train WHILE still pulling its fully loaded tour train. Steam may be old fashioned but it’s still got it 💪