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  • Last month we talked about the damaging effects of water hammer, but there's another state

  • of H2O equally if not more dangerous when put in pipes.

  • Hey I'm Grady.

  • Today on Practical Engineering we're talking about steam hammer and differential shock.

  • This video is sponsored by Skillshare.

  • More on that later.

  • Unless you live in an home with an older radiator or work in certain industrial settings, you

  • probably aren't as familiar with pipes that carry steam as those that carry water.

  • We don't normally need access to steam in our everyday lives like we do to its liquid

  • analog.

  • That's not to say, though, that we don't rely on steam.

  • In fact, it plays a critical role in our modern society.

  • We use steam for heating, cleaning, cooking, and a vast array of industrial processes.

  • About 90 percent of all electric power produced in the world is through the use of steam turbines.

  • If you didn't see my previous video about water hammer, here are the basics: water is

  • heavy and incompressible.

  • If you suddenly stop water while it's moving through a pipe, it can create a massive spike

  • in pressure and break stuff like this pressure gauge.

  • Unlike water, steam is compressible.

  • It's “springyand can absorb sudden changes in velocity without a big change in

  • pressure.

  • The danger with steam is when it doesn't want to be steam anymore.

  • In most places on earth, water exists naturally as a liquid.

  • Under the ambient temperature and pressure conditions we consider habitable, most steam

  • that happens to exist will condense.

  • In a steam pipe, the water that forms from condensation (also known as condensate) is

  • the real danger.

  • And I mean danger in the truest sense of the word.

  • Many lives have been lost in tragic accidents resulting from misunderstanding or misapplication

  • of good engineering principles for steam systems.

  • There are several problems that condensate can create, and we'll talk about two of

  • them in this video.

  • The first one is thermal shock.

  • Imagine this: you open a valve allowing steam to flow into a steel pipe.

  • As the steam comes into contact with that cold steel, it condenses.

  • The problem is that steam takes up about 1600 times more volume than its equivalent mass

  • as a liquid.

  • So, when it condenses, it literally shrinks.

  • In a closed container like a pipe, or this glass bottle that just came out of my microwave,

  • that collapsing steam can lead to catastrophic damage.

  • Water rushes to fill the vacuum created by condensation, cooling the steam even further

  • and creating a runaway situation.

  • This can happen extremely fast, and all that water can accelerate and decelerate violently,

  • hence the name steam hammer.

  • If it's violent enough, it can rupture the pipe leading to an explosion like the one

  • that happened in New York City in 2007.

  • Check out Nick Moore's video linked below if you want to see this demo in slow motion.

  • Thermal shock is a dangerous form of steam hammer, but it's easy to mitigate.

  • When starting up a steam system, engineers and operators expect condensation as the pipes

  • warm up.

  • So start-up procedures will include running at reduced pressure with bleed valves open

  • to make sure that condensation can't form a vacuum.

  • The bigger danger happens during normal operations, but to show how it works, first we need a

  • steam pipe.

  • Condensation in a steam pipe is always occurring just from normal transfer of heat to the outside

  • air.

  • And this is roughly what that might look like.

  • I'm using compressed air here in lieu of steam for the obvious safety implications.

  • Engineers manage this condensate by sloping steam pipes and by installing devices that

  • can get rid of condensate from the pipes called steam traps.

  • Steam traps are a fascinating topic on their own, but occasionally they can get clogged

  • or malfunction, allowing condensate to build up.

  • When water and steam flow together in the same pipe, it's known as biphase flow.

  • In this situation, the velocity of the steam is usually much higher than the velocity of

  • the flowing liquid water.

  • If there's only a little bit of condensate in the pipe, that's really not a big issue.

  • But, if condensate is accidentally allowed to pool up, things can get dangerous.

  • The steam passing over the top of the liquid can create turbulence and waves.

  • If those waves get high enough, the liquid can create a complete seal inside the pipe

  • with the full pressure of the steam behind it.

  • This seal of water becomes a slug or piston and accelerates down the pipe like a the barrel

  • of a cannon, picking up more condensate as it travels.

  • This slug of liquid eventually slams into the end of the pipe, resulting in a dangerous

  • pressure spike known as differential shock.

  • Just like thermal shock, many people have tragically lost their lives in steam pipe

  • explosions caused by this phenomenon.

  • Engineering of steam systems is an incredibly complex topic in mechanical and chemical engineering,

  • and I've just scratched the surface in this video.

  • Whether you realize it or not, many of our modern conveniences are a direct result of

  • steam systems, most notably electricity.

  • So it's critical that engineers can design steam systems to be safe from dangerous phenomena,

  • including thermal and differential shock, also known as steam hammer.

  • Thank you for watching, and let me know what you think.

  • Thanks to Skillshare for sponsoring this video.

  • You probably won't be shocked to learn that Practical Engineering isn't produced by

  • a team of skilled writers, cinematographers, editors, and artists.

  • For the most part it's just a nerd in the garage, me.

  • And they don't teach this stuff in civil engineering school, so I'm slowly improving

  • my video production skills on my own.

  • Skillshare is an online learning community for creators with more than 17,000 high quality

  • classes from experts working in their fields.

  • I've been watching the DIY cinematography class by Ryan Booth, and using it to improve

  • how I use light and camera angles in my videos.

  • If you're trying to learn a new skill or improve an existing one, click on the link

  • in the description below and start your free trial today.

  • The first 300 people to sign up will get their first 2 months free.

  • Again, thank you for watching, and let me know what you think!

Last month we talked about the damaging effects of water hammer, but there's another state

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スチームハンマーとは? (What is Steam Hammer?)

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    wei に公開 2021 年 01 月 14 日
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