Next time you guys do a collab, can we get a full video all about water rockets? :D I want Grady to explain all of the forces and mechanics involved in the rockets and the launchers and how they work :) Of course I remember it all from middle school, but I love the way Grady explains things :)
Hello Grady. I drive a concrete mixer for a living. Some of your videos have helped me understand why some of the jobs I go to do what they do. In my area, we refer to "thrust block" as water block. I was hoping you would mention it as a method of underground pipe restraint. You did not disappoint. This method is even used on pipe joints which are flanged and bolted here.
I'm studying fluid mechanics this semester and the fluid videos on your channel have really been helpful in simplifying and solidifying my understanding of fluids. Keep up the awesome work!
I have over 20 yrs of experience with water and sewer mains and I absolutely enjoy your videos. I find these videos great for showing the young guys. They sometimes get overwhelmed thinking that it’s all very complicated but you just have to keep it simple. Great job.
So, I work for a land surveying and engineering company. Today I was calcing out water pipe supply points for us to stake next week, and on the plans I kept seeing "Trust block" at every one of the angle points and tees. I thought about asking my boss, but he was busy. Thought about googling it, but didn't have the time, so i put it off and forgot about it. Then i come home, click on your video and you explain very well exactly what thrust blocks are... Funny how things just work out sometimes. Love your videos, bud. Keep up the good work.
I am currently working on an irrigation construction project and it is out in the open anyone driving by could say hi and ask questions about what is going on.
Something seemingly very simple, yet actually very complex (like most things in engineering) is pipe flange bolting. I recently worked a project that involved high temperature process piping that required every joint to be evaluated individually due to slight differences in the materials within the joints and differential thermal expansion between those different materials.
Aerospace engineer here- love watching these videos since they often are a side of engineering so distant from what I studied in college. Always fascinating, thanks!
How timely video. They have been renewing a pipeline under my window for over two weeks now and I was wondering the need for poured concrete in the intersection, and why they they dug up seemingly unnecessarily big hole or it. Now I know.
All other channels capture attention with far-fetched epic topics like space travel or some insanely expensive technologies, while Grady is talking about the what's under everyone's feet and is no less interesting. You da real MVP
Wait. Are we all going to ignore the fact that the rocket dude did that in 1 shot? And the alignment of the equation with his hands and the reactions to the videos playing.
@@Isinlor Ya, A lot of people over think it, but in reality most of a rocket (by volume) is intended to get two or three fluids from their tanks to where they need to be, then the combustion chamber or heat exchanger or gas generator or whatever your plumbing to does the rest.
A big thank you to Air Command Rockets, go subscribe to their channel if you aren't already! Make sure you never miss a Practical Engineering video and keep up with all my other projects: practical.engineering/email-list
@@cauchyschwarz3295 That is correct. During the heartbeat, the blood is flowing (hydrodynamic) and after, it is static (hydrostatic). Dynamic=in motion, Static=not in motion.
My dude. Im mostly into physics, biology and philosofy, yet i still drop by to watch every single one of your videos. You make great content, some of the cleanest and most well produced on youtube. Thank you, for opening my eyes to the world of Practical Engineering.
I work in a oil refinery and most of our new pipes are welded or bolted. Even in a facility where we have a pressure of 700 atmospheres the pipes are bolted 😃🤷♂️
@@brianjonker510 I've found 1-1/2 inch socketed bolts at my local lowes before... 🤷♂️ For frame of reference, in my aviation job, our 1-1/2 inch bolts are torques pretty heavily, to to tune of 800+ in/lbs. The only thing that torques higher is a 8" diameter 1/2" thick castellated nut which holds the rotor on.
@@jschackmann2 You think that's bad, try Chicago. We literally had to pass a law to prevent our purely democrat run government from taking funds out of the road maintenance budget for "miscellaneous" spending.
Rt 22 from Robinson PA, to Weirton WV: 5 years ago - When driving east from WV, to PA, In WV is smooth and silky. But when you hit the PA line, you and your car would be beaten, battered and bounced mercilessly. When driving east between 980 exit and Robinson, I could barely keep my breakfast down due to the road having undulations that caused a horrible bounce effect at PA's outdated, 55mph speed limit. I had to drive either 45 or 65 to hit the "waves" at a rate where they did not resonate with my vehicle suspension. I did 65 since most people on 22 are doing 70+ anyway. (Again, 55 mph is an outdated speed limit) Today: Driving west from PA into WV, In PA the undulations are gone, between Robinson and 980, and its fairly smooth. But as soon as you hit WV, if you value your alignment and tires you better drive like a drunken maniac, swerving around the craters. The there's the hill going from Three Springs, down to the Ohio river... Thin, patchy asphalt that has flaked out. WTF did they do there? But PA still has their brain-dead moments.. A small town had "bombed-out" cratered roads with car-eaters living in them. Then one summer, they went through and dug out, and replaced all the streets and roads with new silky smooth blacktop. It was nice.. 2 weeks later, they ripped up every intersection along several streets and the main road, to replace pipes... * facepalm * Same small town, city sewer crews had once, carved out 2 ft X 3 ft hole in the main road through town, done their work, then filled the hole up all but about 8 inches from the top. They did not mark the hole, they did not put a plate on it, or a cone.. just left an 8 inch deep hole. I was at work at a nearby gas station that night. At least ten cars with blown tires, 4 of those had bent or broken rims, two others had severe damage, one with the strut driven up through the hood, all came limping in to the lot all madder than hell! It took several 911 calls to get a cop to come out and put cones around the hole. Two nights later, one of the guys whose car was damaged, came back with a truck, and filled the hole with crushed limestone gravel with dry concrete in it. That gravel patch remained for two more years until the city came back to finish the job. Which I might add was just a half-inch of asphalt shoveled onto the gravel, and patted with a shovel.
People take for granted what the everyday construction crew does! Most of these guys know more than the engineers about local real world problems! Sandy soil, solid rock environment, clay etc, Great video!!!!
I can tell you as a city of Chicago water department worker we use restraints on just the bends and T fittings while straight pipe is just push fittings
This is just great! I am a superintendent for a commercial general contractor in Utah. I thoroughly enjoy my job as it keeps me on my feet and always learning. When I was in college (construction management) it was all about paper work and budgets. We never really learned how things or why things are put together. I gained all that knowledge by doing and watching. On our sites we see many thrusts blocks and felt I understood them well. But I always learn from this channel and I love it. You’re a fantastic educator and very articulate in your explanations. Thanks!
Today I replaced the broken lever on my tap, and was pretty proud about it, was telling everyone, now I came online and this was the first recommended video.
Another great video. I work for a big steel company and one of my roles, which I'm currently learning is in the cellar that drives the the mill. There's tanks, pumps and pipes everywhere. Your videos are helping further my knowledge and understanding of our systems. Cheers
Excellent video Grady! Great visuals, concise, and something that everyone can relate to. Content creators like you are are what brings life to RUclips. I hope to create content as good as you one day!
I love that you are covering so many aspects of plumbing! I've been working as a plumber for years now and I've wanted to learn the science associated with why I do what I do for a while now. Thank you so much for the fun and educational examples
They basically lessened the force transfered to the split by making the inner flow curve more slowly in longer distances to the target angle. Like a fast car turning left in an intersection versus one of those "soft turns" that start the turn much early on before the intersection. I've seen some wilder things dont here. They literally enveloped the whole T-fitting (or y-bend, don't know which they used) in a block of concrete. Guess they were desperate lol
@@ayuchanayuko I've had to fix a leak in a joint encased in concrete before. Pipes froze and the joint was spewing water on an extremely cold day and we had to use a jackhammer to get to the joint and a hammer and chisel to expose the bolts on the mechanical joints. Turns out pipe crews in the 90s were terrible.
@@taylorsova1205 It was still under partial pressure. The water froze inside the valve on one end of the Street so it wouldn't close all the way. Cutting the T out would've been unreasonable because it would flood the ditch on a below-freezing day. Trust me, if we could've just put a new T in with 3 straight fittings we would've, but that would require some serious wading and there was no way in hell I was about to swim in freezing water while there was sleet coming down around us.
and this is only the basic bare bones version. Items not discussed: Thermal expansion/contraction, pigging operations, slug flow, bouyancy, bearing loading, external soil movments, erosion, hydraulic upsets (surges), etc.
I work for a construction company that has contracts with cities to fix water main breaks. The main reason why water mains break are due to age. Secondly the dirt under the ground shifts which causes the pipes to shift, that leads to leaks and pipes freezing and in freezing causing cracks to get bigger. Water main breaks are always gonna happen no matter what. No thrust block is gonna stop a watermain from breaking and the pressure of a watermain is easily 3x more than your sink
You do a really great job of making concepts easy to visualize and understand. I’m an engineer and I wish my teachers and professors in school spoke and explained things the way you do and showed relevance to practical applications. Keep up the great work.
Great video! I can only imagine the response I'd get if in my city I walked up to a burly labourer man installing a pipe, overworked, full of mud and gunk and over enthusiastically started asking him what kind of support they were using 😂
This is great to see as I’m currently working with a client to solve their pipe line problems. It’s a much more interesting and difficult problem most people don’t know about.
There is another interesting application of this whole thing: Fire fighter hoses. We use flexible tubing, that's obvious. Once you open the hose the whole tubing will shake. For the biggest hoses we even have to put a 3meter straight segment behind us to divert some forces to the ground to make it possible to even hold the hose in position by manpower. It's super cool to see the theory behind the forces acting in our pump/tube/hose system. Thank you for your great job
I remember them telling us in the elementary school field trip that you don't just turn on a firehose without training or it'll whip around and probably break your leg.
@@stevenclark2188 oh well... I joined the youth fire fighters when I was 10, and we were allowed to use the big hoses it's not as extreme as you described there, but a big one, like a german B-hose needs to be used by 3 grown men or women if used with proper preassure (like 8-10 bar) if you use this device: de.wikipedia.org/wiki/St%C3%BCtzkr%C3%BCmmer you're allowed to use it by 2 men
Thanks for your channel and all of the info that you present in. I worked in construction for almost 34 years, and in that time I helped build a great many civil engineering projects. I learned a great many things over my career, but the ones that I’m most proud of were the ones that really made me scratch my head and say “ how am I gonna do THAT!?
@@jeromerox9999 to be fair, that's a gas bubble forming and collapsing with a series of preassure pulses in reaction to an abruptly interruption of a dynamic liquid medium within a pipe. Far from similiar to a pipe system for a gas phase medium.
@@SonsOfLorgar Just curious: Did you really need to say "dynamic liquid medium" or could you have just said liquid? Is it different somehow? Also, what does "abruptly interruption" mean? And "gas phase medium" seems weird too. Why not just gas?
I'm amazed at the footage at 8:35 and 8:40! I didn't think it was possible for more than 1 guy to be working on the road at once. I hope they all took a good month off while leaving the road closed after this to balance it out.
regimiro in my town there is a 36 feet wide 8 feet tall culvert that is 1.16km long, it has other 1km long tunnels flowing into it. It has 49 miles of surface area . I walk through it a lot it’s called the rio monterroso.
@@stormfourstrings1735 were they within 2' of either side of it? That's the "variance" that most of them seem to live by.. "Why did you hit it? I marked it 23" to the left!"
Talk about amazing maintenance crews, the speed with which they repaired that 96" water main here in Houston that suddenly found itself venting to atmosphere late last month was unreal.
Grady, it's Grady, one of the nifty additions to slip joint o-rings or gaskets in C900 and CIP these days are metal Barbs that allow the pipe to be inserted but not removed, once in... There's no pulling it apart again as the Barb's dig in and the gasket is pushed out against the groove it sits inside the Bell. There's also a joint fitting design called the "mega-lug" which is available for both C900 and CIP, we've also run mega lugs, and thrust blocks in extremely soft soil. One thing I'd love to see in a future episode is the use of anodes in CIP water pipes and why they're necessary. I think people would be surprised that we use them and why.
Learned something new here, about hydrostatic forces. Have never seen a thrust block in a trench, our pressurelines are all welded, metal or HD/HDPE. Great video, thank you!
Also, what the other components of an oil refinery around the cracking tower. The oil and gas pipeline system starting in northern Alberta and ending in Galveston, TX. Lots of small pipelines adding up to a vast, efficient fuel transportation system across America.
We have an oil pipeline that comes right past our town and a booster station less than 10 miles away. So being on the fire department we got to tour the facility. And let me tell you, the pressures and volumes that these operate at is an amazing engineering feat. The facility uses more electricity than our entire town of 2333 population.
About 3 years ago, in Conroe Tx, a concrete truck hit a fire hydrant. The pressure from the water rushing out of that break cause 3 other breaks underground across 7 city blocks. It took 4 days to dig it all up and fix it. After this post I found your water hammer video. Thats what they said happened.
"All important things are done through pipes. Proof thereof: firstly, the procreation organs, secondly, the writers' quill and, thirdly, our shooting-gun. What is man other than a tangled bundle of pipes!" (German physicist, aphorist and philosopher Georg Christoph Lichtenberg, Wastebook E, 1775)
Several years ago I was working for one of the Ma Bell spinoffs, and we had a contractor excavating a utility trench in a Mobile Home Park to repair a fault in a Telephone cable. Utilities in Mobile Home Parks are notoriously under built, and the 8 inch water main next to our cable didn't have any thrust blacking at the bends. There was a 90 degree turn in the water main next to the buried cable splice we were excavating. When the soil around the joint was removed, the elbow separated, and it was the Johnstown Flood all over again. It was a learning experience for everyone involved.
yeah my father explained to me once it melts them together so you gotta put the solvent on one piece and stick it into the other and position them properly before it hardens, I've learned some of the most creative swears and imprecations while following techicians doing this job 😂
We use thrust blocks , field lock gaskets, all thread between some fittings linked with ductile lugs to hold fittings under possible thrust separation.
Grady, with one other consideration important on underground water piping: Freezing in winter. I am from the mid-Atlantic area which has freezes during the winter months. When water freezes, it expands and will break anything containing it. Much of this is prevented by burying the pipe under the frost line. However, with older pipes, very cold water from a reservoir creates a temperature difference that causes a bursting of the pipe. The pipe itself is normally at a constant temperature being under the frost line. The water is extremely cold. The pipe can fail, resulting in a sinkhole at the surface.
On the last pump station project I was on, we had to use restrained joints AND thrust blocks. All of the fittings were megalugs, and the bell joints had a regular gasket + a second gasket with locking lugs.
great video. 1 piece of advice is that it is recommended practice when gluing plastic piping to make a 1/4 - 1/2 turn of connected joint prior to the glue setting. This reduces potential for leakage.
When I started my engineering degree, it was broken down like this: Mechanical engineer = if it isn't moving, you have a problem Civil engineer = if it is moving, you have a problem Electrical engineer = zappy zappy go spark make computer
Good video! I contract at power plants and they run lines at very high pressure so you can bet they restrain their pipe, sometimes with massive hangers, anchors, and thrust blocks
From memory I think one of the water slides I've seen has neither thrust blocks or restraining fittings. Maybe the force goes through struts into a thrust block or perhaps the restraining fitting is disguised for aesthetics.
At this point of my life, I like to believe I know a little something about a lot of stuff. Never heard of thrust blocks until today. Always learning... Thanks to those who teach!
I've often asked workers to explain to me what they are doing. (Politely and before approaching the works closely.) I've never been turned away and usually have interesting conversations. The highlight of this approach was seeing the prepared bedrock foundation of a major dam.
Excellent video and explanation of this topic! Air Command Rockets did a fantastic job and the way he explained and had the video sync up to what he was saying and gesturing at was very well done! Keep it up
your VPN add is bs, packets sniffing isn't really a thing anymore with https. the real reason to use VPN's is to get access to things with country locks.
@@thegamecreator1 The connection from the VPN exit node to the Website is still unencrypted. And since basically every website has HTTPS and the encryption used by nordvpn is the same as used in HTTPS it doesn't matter. A is useful if you dont trust your ISP but a VPN becuause the can allways see at least which sites you are visiting. And a vpn is useful if you want to do something shady, like downloading movies illegaly or watching netflix as if you are in a different country (which is against the terms of service).
Does this mean that a large break in one place of a pipe network might cause another (or even a cascade of failures) if that break causes the thrust in another branch to go from balanced to unbalanced? If so, I'd assume it's a good practice to always anchor branching points very well even if they're supposed to be balanced...
Stein Gauslaa Strindhaug it’s likely that a large break would cause a major pressure drop in the main. Therefore, in the short term, you wouldn’t likely see a cascading effect because the hydrostatic forces would be so low due to the pressure drop. That being said, anything is possible and it is still good practice to restrain the pipe at any fitting whether balanced or unbalanced.
It seems like every single one of your videos is super interesting and has information that's new to me, explained in simple terms. I wish we had a hundred more channels like yours!
The most common pipe materials for water and waste water pressure pipes are available with self-restrained joints. PE-pipe, steel pipe and PVC pressure pipe can be welded. Ductile iron pipes are available with locking wedges you install into the bell, which holds the weld bead on the spigot end from slipping back out; this seems weak, but you can even install them with HDD.
Thanks Grady for the opportunity to contribute to your video. It was fun doing the collaboration. :)
6:12 nice dodge! ;-)
Next time you guys do a collab, can we get a full video all about water rockets? :D I want Grady to explain all of the forces and mechanics involved in the rockets and the launchers and how they work :) Of course I remember it all from middle school, but I love the way Grady explains things :)
Nice work guys (Australian 🤝)
So what are the optimum gas liquid ratios/pressures in these rockets ?
About 1/3 water and 2/3 air.
Hello Grady.
I drive a concrete mixer for a living. Some of your videos have helped me understand why some of the jobs I go to do what they do.
In my area, we refer to "thrust block" as water block. I was hoping you would mention it as a method of underground pipe restraint. You did not disappoint.
This method is even used on pipe joints which are flanged and bolted here.
I'm studying fluid mechanics this semester and the fluid videos on your channel have really been helpful in simplifying and solidifying my understanding of fluids. Keep up the awesome work!
"Solidifying my understanding of fluids" Nice choice of words :)
If it solidified your understanding, maybe it's solid mechanics instead!
Failed the course twice 😭😭
Re doing this semester.
I hope i see you in class
I have over 20 yrs of experience with water and sewer mains and I absolutely enjoy your videos. I find these videos great for showing the young guys. They sometimes get overwhelmed thinking that it’s all very complicated but you just have to keep it simple. Great job.
Normally youtube recommends these kinds of videos years after they're made, but this time it was on the same day.
Wow, I didn't even notice I was watching this early
SANVEER SOOKDAWE same I just thought would be old. But YAY, thanks RUclips!!!
RUclips has its' favorites.
They have switched to a system that recommends videos on the upload day AND five years after. Technology isn't it awesome!
Ay same
So, I work for a land surveying and engineering company. Today I was calcing out water pipe supply points for us to stake next week, and on the plans I kept seeing "Trust block" at every one of the angle points and tees. I thought about asking my boss, but he was busy. Thought about googling it, but didn't have the time, so i put it off and forgot about it. Then i come home, click on your video and you explain very well exactly what thrust blocks are...
Funny how things just work out sometimes. Love your videos, bud. Keep up the good work.
Your clear tubing salesman must really like seeing you come in every month.
"Hey, are you guys using thrust blocks for that cross-section?"
...
"Who the hell let you in here?"
Haha I was think the same
I am currently working on an irrigation construction project and it is out in the open anyone driving by could say hi and ask questions about what is going on.
Sure, we put some cinder blocks behind it....
*Random kid appears out of nowhere* : what kind of restraints ya usin'?
Worker: how did you-
@@FatGuyInaTruck lol same
Something seemingly very simple, yet actually very complex (like most things in engineering) is pipe flange bolting. I recently worked a project that involved high temperature process piping that required every joint to be evaluated individually due to slight differences in the materials within the joints and differential thermal expansion between those different materials.
Aerospace engineer here- love watching these videos since they often are a side of engineering so distant from what I studied in college. Always fascinating, thanks!
relationship between this guy and water plumbing is the same as wendower and planes
Goddamn right!
I would include HAI in that list ;-)
@@fadetounforgiven HAI is made by Wendover as well :o
@@HatchetHaro That is why I ended my comment with a ;-)
:-)
This guy and concrete
How timely video. They have been renewing a pipeline under my window for over two weeks now and I was wondering the need for poured concrete in the intersection, and why they they dug up seemingly unnecessarily big hole or it. Now I know.
I dont wanna deal with life today... just wanna sleep..
RUclips: wanna learn about pipes?
YOU BET I DO
All other channels capture attention with far-fetched epic topics like space travel or some insanely expensive technologies, while Grady is talking about the what's under everyone's feet and is no less interesting. You da real MVP
Wait. Are we all going to ignore the fact that the rocket dude did that in 1 shot? And the alignment of the equation with his hands and the reactions to the videos playing.
that segment was boss
2 shots - there's a pretty obvious cut at 5:39
Still impressive as all get out
When hydraulics leads to rocket science.
And dirt mechanics don't know about the rocket equation.
Rocket engineering besides combustion is almost all about plumbing and tanks design.
@@Isinlor Ya, A lot of people over think it, but in reality most of a rocket (by volume) is intended to get two or three fluids from their tanks to where they need to be, then the combustion chamber or heat exchanger or gas generator or whatever your plumbing to does the rest.
@@Styrofo4m it depends... most likely either a kitchen or a bathroom.
Then leads to a video game called Kerbal space program
10:25 that's what the sergeant told my great grandpa right before he died in the great war
dude!Brutal! x)))
Who knew the Germans were so kinky?
XD
which one - 1st or 2nd or 3rd?
which type of restraints they are using
machine guns
A big thank you to Air Command Rockets, go subscribe to their channel if you aren't already! Make sure you never miss a Practical Engineering video and keep up with all my other projects: practical.engineering/email-list
blood pressure also measures hydrodynamic and hydrostatic forces, although they're called systolic and diastolic blood pressure, respectively
Im confused. I thought the difference between those terms lay in the pressure during a heartbeat and after a heartbeat. Can you explain?
@@cauchyschwarz3295 That is correct. During the heartbeat, the blood is flowing (hydrodynamic) and after, it is static (hydrostatic). Dynamic=in motion, Static=not in motion.
My dude.
Im mostly into physics, biology and philosofy, yet i still drop by to watch every single one of your videos.
You make great content, some of the cleanest and most well produced on youtube.
Thank you, for opening my eyes to the world of Practical Engineering.
Arnold Thomsen philosophy * don’t say philosofy ever again, ok?
This series gives me so much appreciation for stuff all around me. Much love, Grady
I work in a oil refinery and most of our new pipes are welded or bolted.
Even in a facility where we have a pressure of 700 atmospheres the pipes are bolted 😃🤷♂️
Bet those bolts are bigger than what I can get at my neighborhood true value
@@brianjonker510 I've found 1-1/2 inch socketed bolts at my local lowes before... 🤷♂️
For frame of reference, in my aviation job, our 1-1/2 inch bolts are torques pretty heavily, to to tune of 800+ in/lbs. The only thing that torques higher is a 8" diameter 1/2" thick castellated nut which holds the rotor on.
@@kirknay Probably 800 _foot_ pounds.
@@UncleKennysPlace probably 800 king George thumbs per king Henry's stool after curry night. Or you could use SI
Kenny Phillips that would make more sense yeah. Couldn’t you reach 800 inch pounds with one finger on a cheater bar?😂
8:40 Clearly, Grady has never driven on the potholes of Pennsylvania. Great vid as always.
Or New York
Every road I,v been on in PA have been much smoother than NY or NJ
@@jschackmann2 You think that's bad, try Chicago. We literally had to pass a law to prevent our purely democrat run government from taking funds out of the road maintenance budget for "miscellaneous" spending.
I'm sorry but no first world city has worse roads than montreal.Its like driving through london after the fucking blitz.
Rt 22 from Robinson PA, to Weirton WV:
5 years ago - When driving east from WV, to PA, In WV is smooth and silky. But when you hit the PA line, you and your car would be beaten, battered and bounced mercilessly. When driving east between 980 exit and Robinson, I could barely keep my breakfast down due to the road having undulations that caused a horrible bounce effect at PA's outdated, 55mph speed limit. I had to drive either 45 or 65 to hit the "waves" at a rate where they did not resonate with my vehicle suspension. I did 65 since most people on 22 are doing 70+ anyway. (Again, 55 mph is an outdated speed limit)
Today: Driving west from PA into WV, In PA the undulations are gone, between Robinson and 980, and its fairly smooth. But as soon as you hit WV, if you value your alignment and tires you better drive like a drunken maniac, swerving around the craters. The there's the hill going from Three Springs, down to the Ohio river... Thin, patchy asphalt that has flaked out. WTF did they do there?
But PA still has their brain-dead moments.. A small town had "bombed-out" cratered roads with car-eaters living in them. Then one summer, they went through and dug out, and replaced all the streets and roads with new silky smooth blacktop. It was nice.. 2 weeks later, they ripped up every intersection along several streets and the main road, to replace pipes... * facepalm * Same small town, city sewer crews had once, carved out 2 ft X 3 ft hole in the main road through town, done their work, then filled the hole up all but about 8 inches from the top. They did not mark the hole, they did not put a plate on it, or a cone.. just left an 8 inch deep hole. I was at work at a nearby gas station that night. At least ten cars with blown tires, 4 of those had bent or broken rims, two others had severe damage, one with the strut driven up through the hood, all came limping in to the lot all madder than hell! It took several 911 calls to get a cop to come out and put cones around the hole. Two nights later, one of the guys whose car was damaged, came back with a truck, and filled the hole with crushed limestone gravel with dry concrete in it. That gravel patch remained for two more years until the city came back to finish the job. Which I might add was just a half-inch of asphalt shoveled onto the gravel, and patted with a shovel.
People take for granted what the everyday construction crew does! Most of these guys know more than the engineers about local real world problems! Sandy soil, solid rock environment, clay etc, Great video!!!!
I can tell you as a city of Chicago water department worker we use restraints on just the bends and T fittings while straight pipe is just push fittings
This is just great! I am a superintendent for a commercial general contractor in Utah. I thoroughly enjoy my job as it keeps me on my feet and always learning. When I was in college (construction management) it was all about paper work and budgets. We never really learned how things or why things are put together. I gained all that knowledge by doing and watching. On our sites we see many thrusts blocks and felt I understood them well. But I always learn from this channel and I love it. You’re a fantastic educator and very articulate in your explanations. Thanks!
The water rocket guy seems like a boss
Thank you for mentioning polyethylene pipe. Which has a fully restrained fusion joint. No need for thrust blocks at directional changes!!!
Today I replaced the broken lever on my tap, and was pretty proud about it, was telling everyone,
now I came online and this was the first recommended video.
Another great video. I work for a big steel company and one of my roles, which I'm currently learning is in the cellar that drives the the mill. There's tanks, pumps and pipes everywhere. Your videos are helping further my knowledge and understanding of our systems. Cheers
Excellent video Grady! Great visuals, concise, and something that everyone can relate to. Content creators like you are are what brings life to RUclips. I hope to create content as good as you one day!
I love that you are covering so many aspects of plumbing! I've been working as a plumber for years now and I've wanted to learn the science associated with why I do what I do for a while now. Thank you so much for the fun and educational examples
The T split at the end of our street disconnected about 9 times in 2019 but they now fixed it by replacing it with an Y instead of a T. Works so far
They basically lessened the force transfered to the split by making the inner flow curve more slowly in longer distances to the target angle. Like a fast car turning left in an intersection versus one of those "soft turns" that start the turn much early on before the intersection.
I've seen some wilder things dont here. They literally enveloped the whole T-fitting (or y-bend, don't know which they used) in a block of concrete. Guess they were desperate lol
@@ayuchanayuko I've had to fix a leak in a joint encased in concrete before. Pipes froze and the joint was spewing water on an extremely cold day and we had to use a jackhammer to get to the joint and a hammer and chisel to expose the bolts on the mechanical joints. Turns out pipe crews in the 90s were terrible.
@@kylehart8829 that's when we just cut it at both ends and start new.
@@taylorsova1205 It was still under partial pressure. The water froze inside the valve on one end of the Street so it wouldn't close all the way. Cutting the T out would've been unreasonable because it would flood the ditch on a below-freezing day. Trust me, if we could've just put a new T in with 3 straight fittings we would've, but that would require some serious wading and there was no way in hell I was about to swim in freezing water while there was sleet coming down around us.
@@kylehart8829 yea, been there too. It blows. But someone has to be the hero right?
and this is only the basic bare bones version.
Items not discussed: Thermal expansion/contraction, pigging operations, slug flow, bouyancy, bearing loading, external soil movments, erosion, hydraulic upsets (surges), etc.
that was a very fun guest segment there, informative but also entertaining :3
I work for a construction company that has contracts with cities to fix water main breaks. The main reason why water mains break are due to age. Secondly the dirt under the ground shifts which causes the pipes to shift, that leads to leaks and pipes freezing and in freezing causing cracks to get bigger. Water main breaks are always gonna happen no matter what. No thrust block is gonna stop a watermain from breaking and the pressure of a watermain is easily 3x more than your sink
Awesome video. My favourite part is when you clearly delineated the start of your ad, rather than trying to trick us into thinking it was content.
I LOVE @Air Command Rockets!
0:50 Hey, nice Culvert. This cool RUclipsr just taught me about them!
You do a really great job of making concepts easy to visualize and understand. I’m an engineer and I wish my teachers and professors in school spoke and explained things the way you do and showed relevance to practical applications. Keep up the great work.
Great video! I can only imagine the response I'd get if in my city I walked up to a burly labourer man installing a pipe, overworked, full of mud and gunk and over enthusiastically started asking him what kind of support they were using 😂
Daniel Lassak Most people love to share their knowledge.
@@billpetersen298 you're right they'd prob be happy that you asked
Well, asked them during lunchbreak. Or even better, when they half-sloshed on your local bar.
This is great to see as I’m currently working with a client to solve their pipe line problems. It’s a much more interesting and difficult problem most people don’t know about.
That is more information in this video than I could find in books, good job!
There is another interesting application of this whole thing:
Fire fighter hoses.
We use flexible tubing, that's obvious. Once you open the hose the whole tubing will shake.
For the biggest hoses we even have to put a 3meter straight segment behind us to divert some forces to the ground to make it possible to even hold the hose in position by manpower.
It's super cool to see the theory behind the forces acting in our pump/tube/hose system.
Thank you for your great job
I remember them telling us in the elementary school field trip that you don't just turn on a firehose without training or it'll whip around and probably break your leg.
@@stevenclark2188 oh well... I joined the youth fire fighters when I was 10, and we were allowed to use the big hoses
it's not as extreme as you described there, but a big one, like a german B-hose needs to be used by 3 grown men or women if used with proper preassure (like 8-10 bar)
if you use this device: de.wikipedia.org/wiki/St%C3%BCtzkr%C3%BCmmer you're allowed to use it by 2 men
“Pipes can’t float there in the air”
well not with that attitude
🤣🤣🤣🤣
You spelled altitude wrong.
@@ofnotandi no i meant to spell attitude
Hahaah
@@TSUNAMI_0707 Just a joke.
Thanks for your channel and all of the info that you present in. I worked in construction for almost 34 years, and in that time I helped build a great many civil engineering projects. I learned a great many things over my career, but the ones that I’m most proud of were the ones that really made me scratch my head and say “ how am I gonna do THAT!?
Grady: Civil engineers don’t want the things we design to go flying through the air!
Matthew McConaughey: be a lot cooler if you did
I find it somewhat heartening that a video about sewer pipes has almost 600,000 views a day after it's released.
Always a joy to see that you've uploaded a new video! 🙂
I'm an engineering student and your videos are my ground cable and a reminder to why I've choosen these career
Hey Grady, Love the videos on liquid pipe and electrical lines, was wondering if you were planning on making any videos on gas pipes in the future?
Do it
he has one on steam hammer, that's a gas
@@jeromerox9999 to be fair, that's a gas bubble forming and collapsing with a series of preassure pulses in reaction to an abruptly interruption of a dynamic liquid medium within a pipe.
Far from similiar to a pipe system for a gas phase medium.
Though you were asking for glass pipes for a sec.
@@SonsOfLorgar Just curious: Did you really need to say "dynamic liquid medium" or could you have just said liquid? Is it different somehow? Also, what does "abruptly interruption" mean? And "gas phase medium" seems weird too. Why not just gas?
I'm amazed at the footage at 8:35 and 8:40!
I didn't think it was possible for more than 1 guy to be working on the road at once. I hope they all took a good month off while leaving the road closed after this to balance it out.
"Why pipes move underground"
Me: "WHAT?!"
I used to work in chemical pipe system engineering (up to OD 3250) and lemme tell ya, it is a vastly underrated art form.
Work in construction for a while and you’ll learn that pipes are literally never where they’re supposed to be
regimiro in my town there is a 36 feet wide 8 feet tall culvert that is 1.16km long, it has other 1km long tunnels flowing into it. It has 49 miles of surface area . I walk through it a lot it’s called the rio monterroso.
@@the486kgman2 wow
You sound like a utilities locator. *People in the industry will understand!
@@stormfourstrings1735 were they within 2' of either side of it? That's the "variance" that most of them seem to live by..
"Why did you hit it? I marked it 23" to the left!"
@@stormfourstrings1735 hand expose when your a foot above breh
wow, this channel has increased my appreciation for every day things. it’s crazy how complex our world really is
Great video! I really enjoyed it. :D You should make a follow up video talking about the ways infrastructure piping fails.
Talk about amazing maintenance crews, the speed with which they repaired that 96" water main here in Houston that suddenly found itself venting to atmosphere late last month was unreal.
"The sea was angry that day my friends, like an old man trying to send back soup in a deli."
Serenity now
Insanity later.
Grady, it's Grady, one of the nifty additions to slip joint o-rings or gaskets in C900 and CIP these days are metal Barbs that allow the pipe to be inserted but not removed, once in... There's no pulling it apart again as the Barb's dig in and the gasket is pushed out against the groove it sits inside the Bell. There's also a joint fitting design called the "mega-lug" which is available for both C900 and CIP, we've also run mega lugs, and thrust blocks in extremely soft soil. One thing I'd love to see in a future episode is the use of anodes in CIP water pipes and why they're necessary. I think people would be surprised that we use them and why.
I want one of those flesh-coloured hard hats that Grady wears in the video.
This channel is a treasure to humanity.
5 years in engineering school and your contents are the most entertaining ones
Learned something new here, about hydrostatic forces. Have never seen a thrust block in a trench, our pressurelines are all welded, metal or HD/HDPE. Great video, thank you!
I would love to see how those oil pumps work. The ones you see in big Fields
Do you mean an oil pumpjack (donkey)?
ruclips.net/video/X0Dpd52pfp0/видео.html
@@petercarioscia9189
Exactly. I want to see practical engineering make a video on those exact things..
You're super smart and helpful. Thanks
Also, what the other components of an oil refinery around the cracking tower.
The oil and gas pipeline system starting in northern Alberta and ending in Galveston, TX. Lots of small pipelines adding up to a vast, efficient fuel transportation system across America.
We have an oil pipeline that comes right past our town and a booster station less than 10 miles away. So being on the fire department we got to tour the facility. And let me tell you, the pressures and volumes that these operate at is an amazing engineering feat. The facility uses more electricity than our entire town of 2333 population.
@@SethMethCS You mean the TransCanada? I used to work for a guy who ran the entire right of way years ago.
About 3 years ago, in Conroe Tx, a concrete truck hit a fire hydrant. The pressure from the water rushing out of that break cause 3 other breaks underground across 7 city blocks. It took 4 days to dig it all up and fix it.
After this post I found your water hammer video. Thats what they said happened.
"All important things are done through pipes. Proof thereof: firstly, the procreation organs, secondly, the writers' quill and, thirdly, our shooting-gun. What is man other than a tangled bundle of pipes!"
(German physicist, aphorist and philosopher Georg Christoph Lichtenberg, Wastebook E, 1775)
Fire tho
@@guythat779 have you ever smoked a pipe?
@@BloodSprite-tan no
Fire is important to that too tho
"A Man is just a tangled bundle of pipes!"
"No, a Man is a miserable little pile of secrets!"
_Lord Dracula and Herr Lichtenberg arguments, 1780_
me: thinks about my sword
me: is that a pipe? is my life a lie?
Several years ago I was working for one of the Ma Bell spinoffs, and we had a contractor excavating a utility trench in a Mobile Home Park to repair a fault in a Telephone cable. Utilities in Mobile Home Parks are notoriously under built, and the 8 inch water main next to our cable didn't have any thrust blacking at the bends. There was a 90 degree turn in the water main next to the buried cable splice we were excavating. When the soil around the joint was removed, the elbow separated, and it was the Johnstown Flood all over again. It was a learning experience for everyone involved.
6:10 Oscar worthy
Grady's the man. Love this stuff so much. Keep it up
I never knew I like pipes until I watched this video
I appreciate all the effort in making these videos Grady. Keep them going up
Me: watching anime videos about magical girls.
RUclips: want to know why pipes move underground?
Yeah, looks totally relevant.
Lenny face
Yet here you are.
Happy to see you have a gold play button! Great job!
7:25
::Pushes up glasses::
Actually it's solvent based cement not glue that is used to weld plastic pipe together.
😜
That's called glue
Akshuallee🤓
@@geminirox8635 glue is sticky, the solvent cement interacts chemically with PVC. It kinda melts the layers together.
@@user-zp5vt1tu6b its glue
yeah my father explained to me once it melts them together so you gotta put the solvent on one piece and stick it into the other and position them properly before it hardens, I've learned some of the most creative swears and imprecations while following techicians doing this job 😂
We use thrust blocks , field lock gaskets, all thread between some fittings linked with ductile lugs to hold fittings under possible thrust separation.
Big it up for Air Command Rockets. Multi-stage water rockets ffs!
Grady, with one other consideration important on underground water piping: Freezing in winter. I am from the mid-Atlantic area which has freezes during the winter months. When water freezes, it expands and will break anything containing it. Much of this is prevented by burying the pipe under the frost line. However, with older pipes, very cold water from a reservoir creates a temperature difference that causes a bursting of the pipe. The pipe itself is normally at a constant temperature being under the frost line. The water is extremely cold. The pipe can fail, resulting in a sinkhole at the surface.
Sneak a peek in the trench? I thought I was supposed to be driving...
On the last pump station project I was on, we had to use restrained joints AND thrust blocks. All of the fittings were megalugs, and the bell joints had a regular gasket + a second gasket with locking lugs.
I have no idea what I'm doing here this early
Neither do I! Just woke up 21 minutes ago.
I don’t know what I’m doing here so late...
I'm taking a dump.
Talking about thrust forces in pipe systems ( ͡° ͜ʖ ͡°)
Welcome.
Your videos are so well put together! Even for a non engineering guy, I can understand everything.
Great video! It’s interesting that you’re still agreeing to advertise for that vpn though
great video. 1 piece of advice is that it is recommended practice when gluing plastic piping to make a 1/4 - 1/2 turn of connected joint prior to the glue setting. This reduces potential for leakage.
When I started my engineering degree, it was broken down like this:
Mechanical engineer = if it isn't moving, you have a problem
Civil engineer = if it is moving, you have a problem
Electrical engineer = zappy zappy go spark make computer
Don't let the magic smoke escape!
Good video! I contract at power plants and they run lines at very high pressure so you can bet they restrain their pipe, sometimes with massive hangers, anchors, and thrust blocks
From memory I think one of the water slides I've seen has neither thrust blocks or restraining fittings. Maybe the force goes through struts into a thrust block or perhaps the restraining fitting is disguised for aesthetics.
At this point of my life, I like to believe I know a little something about a lot of stuff. Never heard of thrust blocks until today. Always learning... Thanks to those who teach!
I just realized the channel logo doesn’t have the tape on the bridge of the glasses like the intro does and it disturbs me lol.
Hes sponsored now by NORD and hello fresh.haha
I've often asked workers to explain to me what they are doing. (Politely and before approaching the works closely.) I've never been turned away and usually have interesting conversations. The highlight of this approach was seeing the prepared bedrock foundation of a major dam.
I feel like this is Mr Rogers with Low-Fi
Excellent video and explanation of this topic! Air Command Rockets did a fantastic job and the way he explained and had the video sync up to what he was saying and gesturing at was very well done! Keep it up
your VPN add is bs, packets sniffing isn't really a thing anymore with https.
the real reason to use VPN's is to get access to things with country locks.
the real reason to use VPNs is to get ur data sold and get the RUclipsrs money
steamcastle this is assuming HTTPS is implemented on every website you use, or even assuming it’s properly implemented.
@@thegamecreator1 The connection from the VPN exit node to the Website is still unencrypted. And since basically every website has HTTPS and the encryption used by nordvpn is the same as used in HTTPS it doesn't matter.
A is useful if you dont trust your ISP but a VPN becuause the can allways see at least which sites you are visiting. And a vpn is useful if you want to do something shady, like downloading movies illegaly or watching netflix as if you are in a different country (which is against the terms of service).
The editing of the water rockets demonstration was really nice.
Does this mean that a large break in one place of a pipe network might cause another (or even a cascade of failures) if that break causes the thrust in another branch to go from balanced to unbalanced?
If so, I'd assume it's a good practice to always anchor branching points very well even if they're supposed to be balanced...
The four-way branch shown in the diagram near the end is anchored, so it seems this tends to be accounted for.
Stein Gauslaa Strindhaug it’s likely that a large break would cause a major pressure drop in the main. Therefore, in the short term, you wouldn’t likely see a cascading effect because the hydrostatic forces would be so low due to the pressure drop. That being said, anything is possible and it is still good practice to restrain the pipe at any fitting whether balanced or unbalanced.
With old pipes yes
This guy helped me with my bachelors thesis. And now he’s gonna bolster my masters thesis!
Stay awesome man!
Ironic that nord vpn is advertising on a video about securing pipes.
:thinking:
Asdayasman it’s not steam though??? 🤔
And like NORD every pipe leaks
How is that ironic?
Ironic nord vpn pipes got breached a little while ago
@@logitech4873 these days, anything thats interesting, unusual, or coincidental is automatically labeled 'ironic'. sad, but its the world we live in.
It seems like every single one of your videos is super interesting and has information that's new to me, explained in simple terms.
I wish we had a hundred more channels like yours!
Hearing the Aussie accent... 😟🥳
Indian accent is worse.
The most common pipe materials for water and waste water pressure pipes are available with self-restrained joints. PE-pipe, steel pipe and PVC pressure pipe can be welded. Ductile iron pipes are available with locking wedges you install into the bell, which holds the weld bead on the spigot end from slipping back out; this seems weak, but you can even install them with HDD.