The Fast Way to Build Subways: Cut and Cover

If you want to hear more about how different construction approaches can send a project off the rails, read my latest blog post here:
rmtransit.substack.com/p/the-eglinton-crosstown-is-delayed

This is how something like 90% of New York stations were built, some people wonder how so many were built giving it takes so long to make just one today.

cut and cover also provides the city an opportunity to improve other infrastructure that goes under a street like water pipes

The Melbourne Metro Tunnel used cut and cover for its stations but it built huge sheds over the stations so that dust and sound were dampened significantly. It also allowed them to add windows in so people could see the stations progress and arts on the sides while using TBM’s in between stations. It was a really nice idea and you really couldn’t tell there was so much construction happening right under you.

Whenever my parents question why it takes so long to build subways these days I always comment that "It's no longer acceptable for an Italian immigrant to die every kilometer any more" which always makes them realize how far safety rules have come in their lifetimes...

This video is absolutely correct, but also the issue with North American transit construction is not just the construction methods, it's everything else. The Maryland purple line for example uses cut and cover for its underground portions, a mostly above ground preexisting right-of-way, and its still been delayed over and over again!

With the REM and Ontario line, Toronto, Vancouver, Montreal, and Ottawa will all have built elevated transit lines in the last decade. A good sign for building experience and things to come.

As a tunnel designer who works on transportation projects I think this is an excellent, well articulated opinion by someone who clearly has a deep understanding of subway construction. Well done.

The cut and cover method seems to work best is situations where, naturally, want to go in a straight line under a street. It’s probably the best option and why cities used it initially, especially under many streets in NYC.

In my city in Germany, cut and cover is a huge pain, because they will definitely find remains of the romans from 2000 years ago, halting the complete operations

One construction project in the US that could totally be done with cut and cover is the Roosevelt Blvd Subway in Philadelphia. Alan Fisher has a good video on it that I would suggest watching

I notice that in my country (France) cut and cover is no longer an option, even where it would be technically possible. We just build everything with TBMs regardless of whether it's justified or not and stations become needlessly deep and expensive to build. Unfortunately I think the fear of NIMBYs is the main explanation. In Paris a very short cut and cover section had to be built for line 1's extension just to launch the TBM and yet the whole project might be cancelled because locals refused it.

A good example I think is London, the old sub surface lines were built with cut and cover but they completely dug up the streets to do it. I’m not sure people would accept that now. Also cut and cover is very very hard to do where buildings are present.

I started watching your videos 4 years ago and now, I'm a graduating railway engineer in my country. Thank you for always giving me valuable insights.

Another reason for not choosing cut and cover is that u have to move all the underground infrastructure as well. Sewer, phone, electricity and water. The hardest and most expensive to move is the sewer pipe, the fall must be consistent, sewer doesn’t like going uphill/around the new metro line. For the Canada line in Vancouver; probably the underground space had been “reserved” for a few decades in anticipation for the metro line. Because of the reserved status the underground space have been kept empty.
De streets which are wide enough for cut and cover are most of the time the bigger access roads. Most of the time underneath those roads are the main pipes and cables for the whole neighborhood.
Keep in mind a metro line travels a long distance through the city. And Because of the size and the inconvenience of not having water/power/sewer in the whole neighborhood the builder have to move the pipes and cables multiple times.
They know there is something underground, but they don’t know where precisely and how deep. The drawings they do have are old, when the neighborhood was being build. Those old drawings are not that detailed and also outdated. Some changes which have been made over the years have been lost. The other problem with old drawings is that u can’t read them because it’s copied/edited and printed too many times. And with the lack of detailed information try to make a plan for moving those cables and pipes multiple times. And try to make a new connection with a sewer or water pipe from 1960, it probably will fail. This all is way too hard and expensive. It’s much easier and cheaper to dig a square hole once in a while for a elevator shaft.

As always: build stuff overground! It's always cheaper than building tunnels

Cut & Cover is definitely the gold standard for rapid transit expansion and I wish it were used more. But one downside of building under streets, is most modern cities put most of their utility conduits there (sewage, water, fiber, electric, gas, storm water, etc). So the main cost usually isn't ripping up the street and digging a hole, but relocating all those utility connections which can be costly. But in many cases IMO it can be worth it because cut & cover is so much more efficient. NY doesn't have the rapid transit system it does today if not for cut & cover. If they originally built deep tunnels the walk times to the stations would have been too much and far fewer people would have used it.

Good video, made a lot of sense. We need to remember that our toolbox has grown over the years, back in the day they didn't have TBMs and a lot of digging was done with a pick and shovel. A big problem today is all of the stuff that is buried under the street, used to be just the water lines and sewers, now we have electrical lines, telephone, cable, telegraph?, and steam lines for building heat. And, believe, a lot of this stuff isn't very well mapped, you dig and find stuff that wasn't supposed to be there. Remember too, that horse and wagon transport had a weight limit of less than ten tons, todays trucks weight that much empty. So, get a TBM and dig deeper, under the first and second layers. Then you have other problems, DC was a swamp and really still is, they just paved over it. You generally have to dig out the stations but that big hole fills up with water that you have to pump out, but dewatering destabilizes the foundations of nearby buildings, resulting in a lot more work. Your comment on transit moving a lot of people with NO pollution is like the claim for electric kars, yeah, there is no tailpipe on the train but where do they get the juice? Probably a coal fired station up the river a few miles.

RM Transit more like RM Trams in Tunnel lover. You are the number 1 tram in tunnel fan

I agree, cut and cover is a method among many others. Besides disruption (see initial Yonge subway construction trauma), theres is also a cost to deal with existing underground infrastructure. Builders are forced to relocate, temporarily support or be extremely careful with (using extremely expensive methods) existing infrastructure.

An important factor is street width: If the street is quite narrow, cut and Cover might not be feasible for the whole route.

Super interesting video as someone going into studying construction management

I like cut and cover subways better from a user experience perspective because it tends to be much quicker to get from the surface outside of a station to the platform.

The majority of Brussels' metro system is actually build using the cut and cover system. Our newest line its new station is being built only using cut and cover.

Thanks for the clarifier this morning!

I think my big take away from the last few videos is express style services should almost always be TBMs, because they have few stops per distance and most of a TBMs costs are stations.
If you want to have regular stops, you're more likely to want cut and cover.

Has this been done - a continuous cut-and-cover.
Dig 10m trench in week 1. Prepare bedding and place precast box tunnel in Week 2, Grout and Waterproof tunnel in week 3. Backfill and pave tunnel in Week 4.
Now make it continuous, so the trenching work is 10m ahead of the placing work, which is 10m ahead of the grouting work, which is 10m ahead of the backfilling.
Add some staging areas and you have a 60m to 100m long section that is closed to traffic and it moves along at 10m per week.
In old cut-and-cover, they did not have precast concrete, or fast hardening grouts - so this modernizes the old method.
Station, now shallower, are decked over since they will take time - but now faster since not as deep.

Well, Like you said, it depends on the environment and the buildings above. In tel aviv you can't use cut and cover beacause you have a whole city above. When they built the underground part of the "red line" in tel aviv (which is deleyed again) they used TBM for the whole part, its about 12 kilometers underground and it took them just a little over two years.

So annoying that the Broadway Subway in Vancouver is being tunnel-bored. It goes right down one of the widest streets in the city and could have been done so much cheaper and faster (probably could have gone all the way to UBC for the same price)
But the NIMBYs who hated the Canada Line construction convinced the Province to use TBMs instead

Cut-and-cover is possible but when the land is laying low in elevation, the concrete tubes are in groundwater and will float. In that case piling is necessary (piles with pull strength) to keep the concrete tube in its place.

I really appreciate the nuance in this video! It makes me wonder whether cut-and-cover stations (as opposed to mined stations) would have made sense as a cost-saving measure for the ridiculously expensive blue line extension in Montréal. Using a TBM to bore the tunnel probably makes sense given how narrow Jean-Talon street is, but maybe the stations could have been cut-and-cover boxes?

Imagine how much faster the 2nd Avenue Subway could be completed if they just used cut and cover instead of tunnel boarding extremely deep underground.

I think TBM’s are very efficient, simply because the disturbance of above ground life is very very minimal. Cut and cover has its benefits for stations of course, but using that for a whole line would be inefficient, which is why it’s not utilized often. You must also factor in that most companies are penalized if they disrupt traffic (road closures, lane closures etc) so obviously cut and cover wouldn’t be a smart thing to utilize.

Cut and Cover is also way better for specific issues.
For example, TBMs can't dig 3rd/4th tunnel behind the station for trains to turn around. Or to build a fork for trains to diverge to a different route (to the depot or different line section).
TBMs also build only standard tunnels - you can't really do the double deck ones unless you make a TBM dedicated to this (very expensive).
In Kyiv, there is a new extension under construction (prolonged since the start of COVID for various reasons) that utilizes both TBM (to cross a difficult terrain underneath a river and varying soils and awful lot of elevation) and cut&cover to build the other part that would have a double deck tunnel (it is there because the fork with 4 tunnels for a future branching section with a depot doesn't fit a narrow street). Using a single method wouldn't be optimal.
Also: TBMs fare way better under the bodies of water, especially in long term. It doesn't have to be a river, stream or lake, but is also an issue with the underground rivers. C&C really struggles to provide same levels of isolation from water and disturbs soils too much as a result of intervention.
That said, I really do appreciate cut&cover a lot.

Definitely the preferred way to tunnel given the right conditions. I know the focus of this video was subways, but another pro of cut-and-cover is the added grade separation it can provide for existing passenger rail (commuter/intercity/regional) since it inherently makes the line safer and more efficient. The Middlebury Tunnel Project in Vermont was an excellent example of this. Previously, the line was trenched right through the center with two bridges so the "cut" was technically done so really what was left was the "cover". Now instead of a huge gap it has become additional green space in the center. If was planning transit upgrades and had to chose, I'd focus making passenger rail safer and more efficient than building new subway tunnels. But I'm also from VT where we only have Amtrak services

Well, I think the moral of the story didn’t just apply to ‘how to build subway or things’, rather it applied to basically everything.
One of the fun fact that me as a Asian who lived in NA especially Toronto for 7 years, found interesting about is that North American are more likely to be radical in adopting idea or method about everything.
In this case, the traffic for example, they used to be ‘we gonna build huge highways and tremendous amount of cars that public transportation will no longer be needed’, and now a lot of people are like ‘we want walkable city so much that we should remove all the highways and cars and make everything car-free’.
Well, my hometown or a lot of Asian countries have some of the best public transportation in the world, let’s say Tokyo for example, which contains 3-40 million population in that city but somehow manages to have a relatively decent traffic through the days. And the reason behind that is how complex the Tokyo transit network is. You see Tokyo not only has the best public transportation in the world, but it also has the best infrastructure in the world. Tokyo circular route serves the best to transport cars so that whoever wants to drive a car can do so as well as the people who want to take the transit or walk.
A city is never meant to be built by only one method to move people around, rather all the different methods are needed. So it’s never like ‘we should build more transportation and stop highway’, but it’s more like ‘we should build more public transportation as well as highways, especially city circular routes to fix the traffic’. And also, whenever building a transportation, I think it’s very important to make it separate from roads and cars so that it serves its purposes properly, which means trams in DT area like Toronto is just utter rubbish and should be replaced by subways or sky-train. Trams can only fit its rule the best when it’s built in densely populated suburban areas like Scarborough or North York. And also, circular routes really really works better than highway go through DT area, it’s been proven in many Asian and European cities and I think it’s exactly what Toronto really needs right now.

I’ve wondered why they don’t use cut and cover anymore, I think the biggest problem is the impact they have on streets and neighborhoods, completely blocking them even if for a short period of time.
São Paulo also completely abandoned cut and cover, besides the fact that the first line in the city was the fastest to be build (in the 1960s). Today the only way to build here is using TBM and sure, it’s great in some aspect (especially building under the rivers and the huge number of buildings), but at same time crest huge structures and that makes building more expensive.

Vienna's new Metro line, plus the extension of another, is build mostly with TBM, but they use C&C for the stations afaik.

I think C&C benefits the most when a street has to be renewed as that way, two birds are hit with a single stone: A street periodically has to be repaved which means it will be closed to the street traffic altogether and C&C requires you to open up the street for the tunnels anyway.
On the point of the fitting tools: I often talk about Frankfurt and once again, here it's relevant again: The underground section of the A Line, the north-south trunk, is mostly build cut & cover outside of the Sachsenhausen section which thanks to the Main must be mined (i.e. TBM), not dug out (clearly visible with the round tunnels at Schweizer Platz) as it mostly follows the existing streets unlike the B and C Lines and S-Bahn tunnels which have a high curvature and go below buildings much more often.
In theory, a lot of the remaining overground sections of the network could be buried into the ground with C&C as they're using former tram tracks on four lane streets. In practice, some sections benefit more elevated guideways because the geography makes it difficult like the remaining Eschersheimer Landstraße section due to railway tracks and a river past Weißer Stein as well as everything north of it (which mostly consists of former railway tracks). Some others should rather be mined like the tram-like U5 since the Eckenheimer Landstraße it goes through is pretty narrow (incidently, it's also the reason why the U5 contains the only street-running section of the network) as well as the sharp curves at Marbachweg

Cut and cover was done in Adelaide, Australia for a bus tunnel. All the people critical of the project referred to it as a “ditch with a lid”.

Yet another great vid on the channel ! You make a great point - Just because a given method or technology is old does not always mean it should be disregarded or thrown away. While new and better methods and technologies are certainly worth pursuing, the tried and true can still be the best solution.

Sheldon: Welcome to fun with trains.
RMTransit: hold my coffee.

Cut and cover might also be a way of making use of oversized roads in urban areas.
You could use cut and cover as an excuse to replace car capacity with rail capacity, and then build the road on top better and more walkable in one project.

In Santiago they’re using a mixture of construction methods to build the new Line 7. For a lot of the stations they’re actually using cut & cover since it’s cheap and it gives them the opportunity to improve a lot of the old infrastructure (like water & sewage pipes and electric lines); for the eastern half they’re using TBM for the tunnels while the western half is being tunneled with the more traditional NATM.

We should get the team from Vancouver Canada line to build for Eglington.

I would like to see more cut and cover... except when the line crosses a river

Cut and cover can also be extremely disruptive if the process involves digging up existing roads in major cities to build the train lines! Also elevated railway lines can also be a great solution for extremely long distance lines that run through areas that are prone to flooding or have significant populations of native wildlife while elevated lines have been progressively becoming cheaper to build over time with new techniques! :)

Would love to see this in more places than old cities. Even wild not as dense city like in Denver!

Reece, from your videos, you have made me a cut and cover fan. But I do understand when boring machines are ideal.

I prefer cut and cover and elevated to deep bore solely for the easier access to stations. Much quicker to walk down or up a flight of stairs or ramp than to take multiple escalators. Deep bore definitely has it's purpose though, especially for lines that don't cleanly follow roads.

C and C is also less useful in places that don't have flat(ish) topography. It would have been very difficult if not impossible to build DC Metro's Red Line with cut-and-cover methods.

In the case of the DLR, there were no streets at the time the railway was built. It was a brand new district of London, they decided it needed transit if it was to be a success, and the railway and streets were built at the same time. When the Jubilee Line Extension came later, that was done using NATM, though their experience of that wasn't good and I don't think they will be repeating it.

I'm curious to understand how long/impactful the disruption would be and the time difference in comparison to a TBM. If there was sufficient zoning/planning done then C and C seems like a no brainer, however I feel like transit building has always been reactive and too little too late. By that point the density in the area you want to build too great, and the worry of re-positioning sewage, electricity and rebuilding of roads.

Drinking game: Take a shot every time he says "cut and cover"

Paris metro has some cut and cover sections, every flat roof station is basically cut and cover, quite many stations on Lines 1, 2; 3, 4 and 5 (the first lines of the network so the most shallow), more rarely on lines 8 and 9 (the latter swtiches to metallic girders to art deco reinforced concrete masonery).
More recent stations built in suburbs sinces the 70s were mostly built in cut and cover, lines 5, 7, 10, 13 (line 1 at La Défense is ab exceptions, it in fact reuses an already built highway tunnel to decrease costs).
More recently, despite mostly using TBMs, nearly all recent stations were built in the modern Cut&Cover method, a box for the stations and a TBM going through them. The only use of old fashioned Cut&Cover method was for Line 4's extension last stop, Lucie Aubrac, the tunnel is right under the street, the station exit peaks out to the surface with windows enlighting the station, the garage tunnel after the station was completely dug from the top to bottom and covered up. By contrast, the station just before, Barbara is much deeper and vaulted as is Mairie de Montrouge because of lots of abandoned quarries that had to be bypassed.
Fun fact, Porte d'Olréans (line 4 former terminus until 2013) is the shallowest Paris metro station, at least on its Northern extremity where stairs were added to allow an easier transfer with some bus lines, there is only ONE stair volley to access the street and NO corridor between the two platforms, Budapest Line 1 style !
On the Grand Paris Express, except for three stations (St Maur Créteil, Vert de Maisons and extremities of Villejuif Gustave Roussy), line 15 stations are all built with the Box+TBM method except for the Eastern terminus, Noisy-Champs where the station is the shallowest at -15 m only, the garage tunnel is completely built in Cut and Cover. The other exception is Pont de Sèvres which is built boldly into the River Seine quay directly ! (the only place where they actually put it close to Line 9 terminus and ensure a somewhat nice transfer (not optimal but the Pont de Sèvres bridge foundations don't allow for many other options)
Gustave Roussy is a very special case, a 70m diameter well, 55m deep !
Lines 16 and 17 underground stations are all built with the Box+TBM method except for the above ground viaduct parts of Line 17 near Villepinte and the trench terminus envisaged North East of the CDG airport.
Lines 14, 15, 16&17 transfer station at St Denis is a gigantic rectangular bow which features the lines going parallel to eachother and a set of transfer floor over, inside the box.
Line 18 is built the same way, one station will be added later on at the interface between the underground section Eastbound and the viaduct at Palaiseau, a 100 m flat section is reserved to add a station aside the tracks when needed. (a last minute modification which is well deserved). The Massy-Palaiseau station on the other end will be a well covered in a glass roof in the middle of the train station and freight tracks, connecting to the two ped bridges linking RERs B and C and TGV station already.
Lyon metro was mostly built around this principle, with the exception of the last Line B extensions that were built the modern way, station box+TBM.

I do have doubts that, at least in North America, cut and cover is that much cheaper. One, it requires more labor. That’s not really the main issue though. The main issue is that cut and cover sucks hardcore for people who will not live near a station but still experience all the disruption. In NA, those people tend to complain, sue, protest, and generally create problems. The method that is commonly used, TBM for the tunnels and cut and cover for stations is great because the people who are most affected are the people who receive most of the benefits.
Not even to mention, the cost issues in NA can’t really be attributed to construction method, as in many other parts of the world (such as Germany, where I live), TBMs are mostly used for subways and things are still much cheaper. In fact in Germany a lot of rail construction in general today is tunneled and it is multiples cheaper than America (idk about canada though)

I hate how Sydney metro and politicians uses deep stations as an advertising ploy, to convince people that deeper stations are more impressive and that it's some kind of engineering marvel, when in reality they're just inconvenient for anyone who actually uses the station.

A good example of doing cut-and-cover in stages while shifting the above-ground traffic around it is Stuttgart's tram stop at the southern and northern ends of their massive Hbf project. In both cases, traffic continued across temporary decks that were moved around as the crews dug out and built different parts of the stations underneath them.

I wouldn't heap so much praise on the Canada Line. A big reason why they were able to do it faster and cheaper is that they simply cut corners by building smaller stations etc. They effectively pushed the costs of expansion into a vastly more expensive future.
Using cut-and-cover definitely helped too, although the disruption to businesses caused so much outrage that the later Broadway line extension has been forced to use tunneling, despite being almost entirely underneath a straight, wide arterial street.

I believe part of 2nd line extension of Warsaw metro was using cut and cover(other parts was done by boring machines).

Regarding Cut and Cover and the Canada Line, you forgot to mention the massive financial impact that was burdened on the Cambie street businesses. A lot of small businesses were not able to cope with the disruption, and went our of business due to a significant drop in customers along the construction corridor.

I think one reason that cut and cover costs can escalate is that ripping up the street is a good occasion to renew said street, like the cut and cover build of McGill station of the REM in mtl will be followed by ever more constrution on the street to make it into a very cool forested park.
(Thankfully the park isn't paid by the REM's budget)
In this case that's good, but in some cases it can lead to very long construction and tunnel budgets inflated by paying for car infrastructure above them

I’m a civil engineer and I like your channel. Let me give you my experience as I’ve been in the room when construction method decisions are made on major transit projects. Key reasons why cut and cover isn’t employed as much
A.) Politics at all levels. Cut and cover is incredibly disruptive. The impact on local traffic and traffic for small businesses makes it so unpopular that no politician/municipal official wants to advocate for it. Public uproar costs votes.
2.) Utilities, Utilities, Utilities. Most people have no clue the tangled web of gas mains, old rickety water mains, FOC, power cabling that exists underground. The design/relocation costs are astronomical. Don’t get me started on schedule…if you think current schedules are bad, wait until you have to relocate a large gas main or 2.
3.) adjacent structure settlement. No one wants to take the risks of causing settlement to adjacent buildings or bridges or other critical structures and being sued.
I could go on and on…my suggestions for improving transit construction schedules?
a) Take a hard look at permitting processes. There are months/years that could be shaved off schedules if we could avoid the layers of bureaucracy.
b) Keep building! Canada hasnt been consistent in building subways/rail infrastructure. The local subcontractors that are the backbone of any project had to relearn and up their capabilities…building is a skill. You don’t use it, you lose it.
There are so many more things i could add here but most people are probably not reading this far so I’ll stop now…😂. Let me know if you’d like to talk more about this topic. This is literally my job.

Here in Curitiba, a mixed solution was planned to be used. The North/South line would be built below the existing BRT exclusive lanes. And through the city center, they would dig deeper until reaching the BRT lanes after. But it didn't happen and a we still rely only on busses on a city with 2million people.

Thank you so much!
Societies, for the lack of a better word, need to have longterm vision to thrive. Mass transit system construction methods are a very important subset of a subset of a subset, etc.
In everything regarding mass transit, or any human endeavor for that matter, we should keep the vision in mind, but adapt as necessary. Myopic self interest seems to be a major obstacle to good mass transit in North America - and in other matters too!

I'm surprised that's even a thing. After all, it's not common to use a combination of different techniques that are best suited to the location where the construction is taking place.

Cut and cover is the best. People just need to suck it up. Mild inconvenience for huge gain

Heard that Singapore announced the adoption of a technology where cut & cover (C&C) would initially be done a few meters deep, before the construction site is roofed over to allow vehicles to continue passing over the road cutting thru the site, & excavators would continue digging deeper beneath the roof (a bit like how Oxford Circus' Victoria Line's platforms were built for London's Tube). This technology was reportedly used to built Kaki Bt station but in the end the roofing was occupied by more consturction equipment, & the road cutting thru that area was still closed for almost 5 yrs as a result. Buses running along that road had to be diverted to a parallel road, increasing traffic jams there

Can't help but think that cut and cover is a great way to build new subways all around the world. Thinking of NYC subway lines that have to be underground and built easily.

People talk about TBMs and Cut and Cover methods like they are the only methods of tunnel construction.
Here at Santiago we became the MASTERS of NATM, there is a reason why we are building so much km of metro lines compared to the rest of Latin America (or America in general).
We use Cut and Cover in small sections nowadays, because the construction of the oldest sections of Line 1 and 2 were too disruptive (but that doesn't mean that we abandoned Cut and Cover completely). For the new Line 7 we are using NATM and TBMs for the first time, but NATM is still the main thing.

here in São Paulo, Brazil, a lot of metro projects are going on at the same time and, in the majority of them (Except the monorail projects) the cut and cover technique is being use for stations, while the tunel boringe machines are being used for the tunels, because of the extreme dense areas where the line are being construct or expanded

Korea seems to be doing it fast enough. Currently Seoul is building the Sinasan Line and they're not even using the traditional cut and cover method for the stations, minimizing obstruction at the surface.

If you look at pictures from the 50s when they were building the Yonge and Bloor subway lines in Toronto, and see how disruptive Cut and Cover was, I don't think people would accept that level of disruption to their community these days.

Cut and Cover is currently being used in the construction of Phase 2 of Jakarta's MRT. They are still using TBM as well for the tunnels.

Cut and cover sounds practical but you also need to consider what to do with the sewer lines, gas lines and whatever else that runs underground. You have to reroute all of them.

Seoul Metro Line 1 (Opened at 1974) was built whole line in Cut-and-cover method) but It make very sharp curve too, especially between Cityhall - Jonggak.
Gwangju Metro Line 2 (Now constructing) is Faster way to cut and cover. It use Pre made Module. and it can allow less time (but only at Straight Line) . By the way, construction is delayed by finantial problem.
Busan Merto Line 1(Opened at 1986) was used Cut-and-cover method. but It can't be used at near Nampo Station. Because it is too close to sea, it was difficult to block water. Beacause of that, NATM was used at first time at south korea. (Nampo station opened at 1988)

Amazing video.

in ASIA most of the metro systems are elevated
and if they are underground TBMs are used
in India metro systems are largely elevated and if under ground sections are made up by TBMs

I still remember wandering around the streets of Paris and being acutely aware of which metro lines were built as cut and cover...because you could clearly hear the trains as they passed just a floor or two below street level. Not sure if this is the case everywhere, and it's certainly quieter than an overhead rattler, but it's definitely a consideration that counts against the cost savings.

in the 1970's, Rio de Janeiro used cut-and-cover for the first half of its subway system (originally called Line 1), and simple ground/elevated tracks for the other half (most of Line 2). Later on, to reach the South Side of the city (basically a thin strip of sandy soil squeezed between the ocean and granite mountains-the average width ranging from 200 to 300 meters), they had to dig through rock (although some parts of the path ran through a sand bar-Ipanema, as in "The Girl From Ipanema"-situated between the beach and a saltwater lagoon). It took a long time to finish, and it only happened at all because of the 2016 Olympics, with the influx of capital to get the city ready for the games. TBMs were not up for the task in most of the length, because of the hardness of the granite. Explosions, for years and years on end. I have an aunt who used to live near one of the job sites in Copacabana (right next to Ipanema) and she used to be terrified of the explosions, even though they set them at regular schedules and warned everybody in the neighborhood.

As an actual civil engineer i think this is way to simplistic.
Firstly when it comes between underground, on ground or over ground, this is not the decision of engineers (generally) but to city planers (that typically are architects, not engineers, but well they can be what ever).
When the decision is made to do a underground part its the engineers turn.. people like me.. When selecting method... well there is more than just boring and cutncover, there is also cover (with out cut), trenching, blasting, freeze and cut and, build and cut .. really a bunch of other method.
Firstly we have to check how deep the tunnel need to go, and can go. There are of cause geometric restriction, while subways can go pretty steep that is typically less of a problem than for heavy rail.
So in a lot of cases, there is not even a option between boring and cutncover. In a lot of cases its just a matter of geometry.
But lets say the situation is ideal. Say for example the rail tunnel in Malmö where the depth was just right to do either cut and cover or boring machine. And that was exactly the case there. Either method was fine well at least of a part. Then its about economics. And you might think, well cut and cover will always be cheaper... wrong. It depends.
what is on the surface, and what is just under the surface. Pipes, cables, fiber. In a city like malmö (and really at least most major nordic cities) in the urban core there is typically 2 or 3 fiber network. surface water pipes, waste water pipes (and those can´t mix) clean water pipes (and those can´t certainly not mix), 2 heat water pipe (flow and return flow) and also in some places 2 chill water pipes and power of cause.
Most of them have to be rerouted.l And most of them have to do so with out losing function during the build period. So you have to first dig up the street, make new pipes and cables before cuting of a single cable over the trench. During this period a section along the edge of the trench have to be open. While part of it can be covered by temporary bridges, this disturb the traffic.
And for ground water and waste water it get worse. Those can´t flow uphill. And you can bet that one side of the trench will be uphill in all direction. Then you need a pump station (or several). Those need to have a pump tank, backup generator and... loads of stuff. All that have to be finished before the cut even start. And the more infrastructure there is in the ground, the harder it is.
This is one reason this is harder today than 150 years ago. They had no internet, no district heating, certainly no district cooling and very seldomly even fresh water. In most cases there was pretty much just waste water.
So if you have a TBM you don´t have to care about all that.. well.. sort of. But you need to care about other things. TBM works great in soft rock and other semi hard ground condition. They work sort of okay in soft ground condition. and they can work in hard rock as well. The issue is that you need diffrent heads for different condition and you might slide from one condition to a other, making it harder. There are multi heads, but those also have limitations (and they are expensive). On the other hand, TBM can be very cost effective if ground-condition is just right.
Back to Malmö. A railway tunnel need to be built from one side of the city to the other. The cut was semi deep. so both CutnCover and tunneling was fine. There was plenty of park areas to dig in and the ground condition, while not good, (very soft clay) was on the other hand, very uniform. The tunnel was built between 2005 and 2010, so in reasonable recent times.
So what method did they choice. Both. Well. actually 3 different method.
Starting from the old station the new station was build in a cut. This area of town was quite industrial and there was space to move traffic around. Also, building a station with cutncover is way cheaper. From there the tunnel was built in cutncover under a park and a few roads close to the park. In the south end of the cut was two TBM installed side by side. They would race the rest of the way.. well almost. But.. well that was not the end of it.
A bit south still was a other station, Triangel station. That was built via a cut. Because.. well boring a station is really hard, and expensive. So the TBM would drill right into the wall of the station. But, that of cause mandated that the wall of the station was built before the TBM reach it. This is actually a quite common method. The two TBM run right throw the station, and keep drilling on the other side. going south to the edge of town where it went out to a half cut.
This part of the city have been reserved for something like 20 years to be a cover for the railway line A new city part was built on top of part of the rail line, that at this end was pretty much totaly over ground. This city part started building in 2008... well not a great timing. This what suppose to be the best address in the city, with 6 minute rail to Denmark. is still to this day not even haft finished. (well a significant part of the rest of the area is a construction zone today, so it might be finished with in the next decade)
Every engineer working with this know the pro and cons. I´m not even working directly with tunnels. just working with making the general line, but i do need to know the restrictions and cost. I can´t just say, do cutncover, its the cheapest.. because it might not be.
You absolutely can go under buildings. Its not even that hard.There are photos from a south american build where they cut out a building totally and its pretty much hovering in mid air (with support).
Cut and cover is not really that much faster. It really depends on the scale of the project.
For something like a long tunnel with no station, a bored tunnel have virtually no disruption. The main problem is the stations. You have to have space to do the work. And you can´t really use the tunnel, because generally the station must be built prior.
In stockholm the stations was bult via secondary entry shaft. This was quite efficent and pretty much all work took place practically 100% under ground

Wow, i thought we had some expensive metro building in my hometown of Amsterdam. But it turns out thats just pretty average. 3 billion in the 2010s for a track that has mixed tunnel booring and cut & cover. But notably, in very marshy and archeological terrain, with expenses for foundational damage to historic buildings. So its actually better than people believe it to be

I will admit that cut-and-cover makes life with a baby easier. Taking a stroller onto line M1 in Budapest is trivially easy compared to many stations in, say, Prague.

pls do a video on the Buenos Aires suite

Honestly to me an Elevated Rapid Transit system would still be cheaper

As a French who grew up in Lyon, where cut and cover whenever possible : it's great for access since a lot of stations are just two flights of stairs deep only. Also, cheaper escalators and elevators since they're much shorter. But the problem in Lyon is that they've done it badly, it's actually too shallow. In the summer, whenever the road above gets too hot, the tunnel inside gets hot too because the road is almost directly laid on the concrete "roof" of the tunnel (at least that's what I've been told).
Except for that, I'd say cut and cover is great because I've never had to experience the construction myself to be honest. But I believe that one or two years of heavy construction to have a brand new metro line is better than waiting for 5 or 10 years of slow, constant construction all over the city to get the same metro line, but with longer trips since it takes so long to get in and out (and makes it more difficult to build fire exits too, which makes everything more expensive again).
Deep tunnels should only be used when cut and cover doesn't make sense, isn't possible, etc. The point of putting the line underground isn't to try and break a record of deepness, it's to avoid all other modes of transit above. If you don't need to go deep, don't go deep. If it makes sense, please do. I just think that cut and cover should be more widely used because it makes more sense in the long term, too many projects go deep because of some NIMBYs (that are just waiting for the line to open so they can sell/rent at a higher price, paradoxically). I mean, your economy will never recover the thousands of hours of productivity lost because a metro line was built deep 50 years ago, to save 2 years of hassle for some people who don't even live there anymore.

My city pioneered the “new Austrian tunneling method in urban areas”. On the lines U4 and U5 of the Frankfurt U-Bahn the method was used on the section half way between the Stations Willi-Brand-Platz and Dom/Römer and Dom/Römer and Konstablerwache where build this way. The Station Dom/Römer was build Cut and Cover.
The tracks there underpin multiple centuries old building. Some listed. Including a huge Church (the Dom) and our City Hall (Römer). Even an archaeological dig site from the Rome empire.

Fun Fact about Edmonton's LRT system. It's used 3 different tunnel types depending on the soil conditions of the city. Cut & Cover for the simple section to connect to downtown in the NE which transformed into NATM for the riverbank portion near the Legislature which both sit on quicksand and have to extra reinforced before opening as well as TBM's for the steep section between University and Health Sciences/Jubilee at 6% grade where it ran under two hospitals and the busiest university in Alberta... And ironically enough NONE of these sections were over budget or delayed including the Valley Line. It's tunnel was built in only a few months with NATM again because of its riverbank location... The most problematic? The elevated guideway piers... 2/3's have had to be retrofitted because of premature cracking and spalling... And the line hasn't even opened...

Can you do a video on Frankfurt am Main's Subways?

To give an example where boring _does_ make sense: the Noord-Zuidlijn in Amsterdam would probably not have existed if TBMs were not an option. They used cut-and-cover for their first line (Oostlijn), which saw the demolition of a lot of buildings. They didn’t want this again, especially not as the Noord-Zuidlijn was going to go right through the historic centre with many narrow streets.
Boring the tunnels went without a hitch, despite the Amsterdam soil having all the qualities of a plate of oatmeal. The infamous Vijzelgracht leak occurred on the station building site - which used cut-and-cover...

Atlantas Marta rail system is absolutely lackluster to say the least say thing is i feel like the with the way the city's laid out a few more rail lines would improve the city alot it also runs directly into the words busiest airport so much lost potential would love it if you could make a video on how to improve the system keep up with the great content

Singapore used alot of cut and cover especially going thru old building area. I guess lesser risk of damaging the surrouding building than drill thru and not limited to type of soil

I remember reading about the spiralling costs of the 7 Subway extension in New York, and it seems that a missed opportunity would have been to repurpose the High Line for Subway tracks (which continues southward from the very location the Subway extension terminates), bringing rapid transit service to a part of lower Manhattan that is underserved.

Canada Line was mentioned. As far as I know (which is limited to Canada), that was the only project that truly gave the contractor the choice of construction method and they chose to put 25% of the 20km route as cut-and-cover instead of TBM. (The 25% under river and through downtown stayed as TBM.

I don’t have all the facts, but CRL in Auckland, NZ used the combination method. C&C was used mainly in the city centre is high still resulted in significant disruptions for several years. The negative public view and concerns for similar levels of disruptions and impacts on businesses was a key contributing factor for the light rail project to choose the boring technique when it chose the underground alignment -the underground alignment was also largely chosen to avoid disruptions both during construction and generally reallocation of road space!

Dumb question warning ☝️
In construction sites these days it seems things can come to a halt when there is so much as a fossilised feather or goldfish found... Does a boring machine just plow on with free reign? Is there a brontosaurus somewhere with a metro tunnel running right up its back passage? ... though that could be cool.

Construction labor was plentiful in the old days and reasonably priced with little inflationary pressure so no "wildcats" and strikes during a project. Also, big projects were subdivided into smaller sections which local companies could easily handle with fewer unknowns so the construction mark-ups were much lower and there was much more competition in bidding to keep construction bids low overall. Today there are labor shortages with everyone going into highly subsidized university courses to study to become third-rate university grads who don't really create any value. Grossly overpaid bureaucrats run big projects and keep life simple by demanding bids to build huge projects on a turnkey basis so there are very few companies globally that can handle such huge projects and of course they pad their bids with lavish allowances for contingencies and they get away with it for lack of competition. In "poor" countries like China the government will organize their own in-house construction companies who have no problem finding armies of basically-educated rural workers who are quite happy to do construction work and they get big things built cheap and fast. However in North America even after a project starts every politician needs to "piss" on a project to leave their unique contribution on it. In Toronto back in the late 1940s and early 1950s anyone who tried to pull that stunt was swatted a "big one" by "Big Daddy Gardiner" who was the one-and-only "Boss" of Toronto and would not tolerate such bloody-minded nonsense from "nobody" politicoes who stepped out of line. 😟

Prague metro line D use for it´s construction combination of TBM, New Austrian Tunneling method and cut & cover (mostly for stations) with occasional other methods (like bridge for Nádraží Krč station).

0:26 Surprised to see the neighborhood I live. Cool.

It's the polar opposite of the way metros were built (and still are built sometimes) in the former soviet and eastern block countries. I live in Budapest and apart from M1 and some stations at the end of the other lines, you mostly go down a looong moving staircase befor you arrive a the platform. Line M2 and M3 were also built with military planning in mind, ie. for use as bomb shelters, also you can see huge steel doors that can be moved down to seal the stations during conflicts.
I think it is not all bad to build deep, looking a Kyiv, you can see how important a deep metro can be. But still when I just walk down a set of around 20 stairs in Line M1, I see the perks of cut and cover :D