Why Do Containers Fall off Containerships? Madrid Bridge | What's Going on With Shipping?

As a crane operator @ the Port of Charleston where the Madrid Bridge discharged its damaged containers, I’d like to offer up some corrections and observations. Twist locks with pull tabs are automatically locked when the container is placed on top of another, providing they are correctly inserted into the corner castings. The tabs are strictly to unlock the twist locks. (There was a period of double pull tab twistlocks that could be both locked and unlocked with rods, but that proved confusing and inconsistent). Todays super Post Panamax ships, that stack containers 8 and 9 high above decks, have gone to a fully automatic twist lock with NO pull tabs what so ever. They are designed to unlock automatically when the container is pulled strait up by the container crane, but stay locked in a rocking side to side motion. I’m not an engineer or physics major, but this seems a little iffy to me in a rough seas condition. I suspect there are several reasons to going to this type of T/L, (reduced labor, faster production, cost), but probably the main reason is that the stacks are just too high now for T/L tabs to be reached with unlocking rods using human labor. I’ve been a container crane operator since the days of manually placed and manually locked T/L’s by longshoremen that used to walk the tiers doing so. Things that would make OSHA throw a red flag in todays operations. Ships also used “bridge clamps” back in the day that would tie the entire top tier together forming one big solid Lego, if you will. Bridge clamps on todays 8 and 9 high stacks would help I’m sure, but that’s a time consuming AND dangerous task to perform that OSHA would not be happy with, and rightfully so!! I would love to see the investigative report, if any, on what actually failed on the Madrid Bridge and others incidents like hers. I still scratch my head on todays new T/L technology and have my own suspicions, but that’s just my observation’s with almost 40 years employment at the SCSPA. Bottom line tho, with the increasing amount of incidents of lost containers overboard, this needs to be addressed and addressed soon. Container ships are getting bigger and bigger! Cheers.

Retired USCG marine inspector here and your fundamental views are true. There are a few others. Each container can hold lets use an average of 60,000 lbs give or take. The design highest stack of a containership is usually 9 high. So 9 high means that the bottom one holds up the weight of the 8 above it with the potential weight of 480,000 lbs (240 tons). Keep that in mind. Now get the ship pitching up and down in large waves and you can potentially double that weight with the shock load as the ship drops down off a large wave and bang! The bottom container crushes and now you have no connection to the ship and over they go! I've inspected hundreds of these ships and they all have one thing in common, a load plan. Heaviest weight down low and lightest ones up high. I have found several ships with lashings missing because the loaders were in a hurry. The lashers are racing against time and keeping up with the crane operator. in the end these ships have become so big that they are causing their own problems. I've had containers split open and the contents rain down on the deck below. The other issue is no one knows how the products in the containers are packed so that adds to the problem.

On our deployment to Iraq in sep 2006 we lost one of our armory containers. We all carried our rifles, but we lost all our crew serve weapons aside from a few 249's. What a disaster.

Hi Sal,
I’d never heard this explanation of the container loss problem before, but to me the solution seems way too simple. Although now after reading through the previous comments, I see that some variations of this idea have been suggested and tried before. Here goes anyway…
First let me explain that earlier in life I was at one point a forklift driver moving pallets of cardboard boxed products in a warehouse, and loading them onto trucks. The boxes came off the production line in runs of uniform sizes. Rectangular boxes could be stacked interlocked on a pallet, but square boxes could not be interlocked, and the outer columns of square boxes would hang over the edge of the pallet by a couple of inches to maximize the number loaded on each pallet. This meant that the outside vertical columns of squares were especially prone to tipping and falling outward as the pallets were moved over rough floors, up and down ramps, and around corners.
What we discovered was that the entire pallet of 16 vertical square columns could be secured and stabilized by simply installing banding or wrapping around only the top layer of boxes. All layers below were then held firmly in place by the weight and friction of the boxes above, which, being banded together, acted like a “cap” over all the stacks. No other banding was then needed at the lower levels in order for the entire pallet to be completely firm and stable.
I don’t see why the same principle wouldn’t apply with a bay of shipping container stacks. Rather than spend lots of time and manpower trying to stiffen the outer stacks from below, simply run long tie cables transversely across several rows of each bay at the top layer only. This would effectively link and thus “solidify” the top layer, which would then keep all containers below locked vertically via their interlocking corners.
It doesn’t take very much force to prevent lateral motion at the top of a freestanding stack, since the tie cables would only be stressed at all when an outermost column was thrown sideways. Otherwise the columns are lateral-force neutral, and no tensioning is needed. We actually used rubber bungee cords in the warehouse, partly for ease of fitting. Heavy duty bungees might even work well in this application, or web cargo straps, or light steel cables, depending on weight and handling requirements. Some mechanical engineers should be able to make short work of designing the needed devices using commonly available materials. Installing (and removing) the cables should be a quick, secure, clip-on operation between the containers’ corner blocks. It may only prove necessary to link the outer three or four rows of each 16-row bay to gain adequate anti-tip stability at sea.
The potential is of course for lots of saved cargo, plus savings on loading/unloading time and manpower, along with lowered environmental risk. Not to mention fewer insurance and administrative headaches, and general benefits for PR and good customer relationships.
I realize that since I am not an industry professional or insider, I may be missing some basic knowledge of fine points that could make this approach less practical. But it at least seems worth mentioning. Best, Steve M.

I had a container on ONE APUS. Was lucky, mine didn’t fall into the ocean or damaged.

I was on a 60' sail boat and we missed a partially sunk container by 6'. It scared the poop out of us

If you have not done so, could you speak on salvage of recovered containers found either at sea or washed ashore & found by the citizens at large.

I learn so much from you. I would've added myself to a waiting list to be in your classroom. Thank you for all you do.

This shows the dangers of the container vessel industry forgoing bridgefittings. To save time (money) container companies stopped using these clamps that bound the top container rows together making it one block. Already in the 90s I (master mariner on container vessels) never saw them anymore. Many disasters could have been avoided.
The clamps weigh about 3kg and are 30cm long. Not difficult to place.

The terms you're looking for, Sal, are 'inertia' and 'momentum'. The top of the stack is like an upside-down pendulum and the only thing keeping the stack from toppling at the deck line are the connections at the corners. And I can't imagine that the locking mechanisms are always in pristine working order, to boot.

We are coming from the era of smaller vessels which had used bridge fittings to secure the containers in a block with the lashing and now we are building larger vessels, stacking containers higher with less securing mechanism. Once containers stacking exceed 4 height above its Lashing force we should consider using bridge fittings for the first 3 containers both port and starboard side.

Very interesting and well presented. Question: Lashing or no, the bottom most containers must support the weight of everything above. So Isn't there also a stack failure-mode if/when the bottom containers collapse, making it even easier for the stack to topple?

This looks like an excellent opportunity to find out the natural frequency of those top 4 stacks in relation to weight of the containers compared to the rolling frequency of the vessel with certain loads. I truly believe these event occur because of matching natural frequencies of vessel roll and unlashed container stacks. Pretty complex set of variables but one could computer model this and avoid resonance peaks during loading, perhaps with the help of ballasting

Sal, we need a video game called Cargo Master as the Captain of a Panamax container MV. Maybe a multiplayer game with Chief Engineer and so on. Could be fun...from random weather events, port congestion, and physics of it all.

Very interesting. Thank you for posting this video. I live 1,500 miles from the ocean and watched because three 40' x 9' high retired containers are storing junk at my woodworking shop on Wyoming's high, semi-desert prairie. And the beat goes on.

That "risk/benefit" analysis is something all insurance companies engage in and they usually have a large stable of well paid attorneys to deal with claims. I worked as a clerk for one of the bigger insurance defense law firms in Portland, Oregon back in the 1980's, fascinating work but most of our work was with landslide claims from insured parties when the rains would come and pitch million dollar homes into the ocean on the coast. Thanks for another enlightening video on container ships.

On these larger ships I think they are going to have to raise the lashing bidges at least two tiers higher in order to attach the lashings higher up in the stow.

Off loading these toppled containers must be a challenge

I worked on her in Charleston. The contributing factors was poorly loaded boxes. You never put a loaded box on an empty box a perfect example is this accident.

I found it interesting that it looks like all of the two-level ties on the Madrid were from outboard on the bottom to inboard on the top. That will restrain the containers from tipping _inward_. Which they won't do anyway, since there are more containers there. It won't do diddly to prevent the container from tipping outward. The two-level ties should have been from inboard on the bottom to outboard on the top. It wouldn't always help enough to prevent all loss, but it could have helped a little.

I guess then the solution would be to substantially increase the penalty of losing cargo overboard to the point they fix the problem. We can't allow them to just write-off such pollution and go on. This has to be stopped.

if lost containers were treated like other hazmat, the ships would take more care for their cargo. if the liability to other sea going vessels was a priority, then maybe the insurance companies would take a dim view of lost containers. In all other freight hauling (trains ,motor freight, airlines) the loss of the shipment is treated as a crime.

Sal, given that this complex problem can be identified by groups or sections and solved in batches, using the old saying that a chain is only as strong as it’s weakest link (member), can the loading practices change to a procedure like airlines use for fuel and baggage planning? Gravity will always rule. I like your examples of Lego block liking to secure a structure. There are a lot of threads (thinking) that make up a load consist and the vehicle/vessel capacity that will carry that load. I enjoy the challenge of studying all the issues but I’m a long way from a comfort zone to arrive at possible solutions. I’ve spent the last 30 years as an arborist dealing with removal of trees close to buildings. The only common ground is problem solving gravity and heavy weight. Keep on top of this discussion.

Thanks! Ever since the Evergreen ship debacle, you have me hooked on shipping issues!

That Robert Redford movie was the worst most inaccurate sailing movie of all time. I cussed and threw things at the tv Robert Redford owns a sailboat he had to have known the script was bs.Do shipping containers float with the doors open? Got to stop on that movie blood pressure going up. I am ex Navy and have owned 7 sailboats, both of my sons are ABs and my son-in-law is a bosun and has passed the 3rd mate tests. Never install your batteries below the waterline ! Subscriber now

Sal, not sure if it the same today as it was years ago, but my friends family was one who arranged to sell places on ships. I had asked him about containers falling off. He said, they placed high value on the bottom or middle and all of the cheap cargo was at the ends, so if they fell off it was not a big value loss. Notwithstanding, of course weight placement.

In the early seventies I did a couple of trips on a container ship. We carried 1400 containers. 6 deep below deck and up to 5 on deck. As I recall all containers even 5 high were secured with cross braces, I think we called them 'pelicans'. I don't remember ever hearing of any container losses. How times have changed!! I'm a sailor and glad I'm not sailing deep sea with the ever increasing risk of hitting a semi submerged container ! Something definately needs doing to stop this madness.

great thing with all those shortages that we just hope our much needed shipment wasnt in one of those lost containers...might not always just be some cheap goods...imagine a container of grafics cards were you have to look hard to find one for less then $1000 and alot of people wait for those ...same goes for alot of other stuff

What about lashing across the top of each stack with cables from the port outermost container all the way across to the starboard outermost container? This would help to tie everything together.

Interesting video, but (assuming nit-picking mode) the 'twisted ship' scenario assumes the fore and aft losses happened simultaneously.
No particular reason why that should be so. A severe parametric roll could shed the forward stack on the roll to port, followed by the aft stack on the starboard roll. A 45 degree roll each way should do it. SCARY. BTDT. But yes, the stack heights are getting crazy. I hope 25K TEUs will be the limit for containerships, like 500K DWT was for tankers. Keep the videos coming.

Many thanks for a great explanation about these container ship losses. Your presentation has been shared with all of our marine forecasters here at the National Hurricane Center. This really helps us to put into perspective when we are forecasting extreme winds and huge waves over the open Atlantic and Pacific Oceans for the blue water mariners!

from an engineering perspective, this has always dumfounded me. the outsides should all be lashed in. I suspect they don't because it slows down loading and offloading

I've always wondered why the structure between rows above deck was not extended higher. Extending the structure to the top, and providing guides would eliminate the need to lash. Given how much longshore labor costs, I would expect over the life of the ship for that to be the cheaper solution.

I sometimes pull containers for the trucking company I work for we do 45,40,20 ft containers the ones u can feel and respect are the 20 ft ones they have 3 axle chassis for these they can put 50,000 lbs in these and are top heavy couldn't imagine 9 high all of it magnified. Lots of math and science Goin on love it. It's like going back to school great knowledge

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Instead of rods, they should use steel cables to attach the top containers to the hull of the ship.

In the time taken to fit corner interlocks to all corners and lash the first 3~5 containers, I wonder if it is possible to fit a steel hook in place of the interlock (but using similar twist/untwist mechanism to fit the hook) and weave two steel cables from top of stack to cleats on the deck?
I guess the next problem would be the weight of the cable - it looks like it needs to be light enough that two people can lash down a stack, but strong enough so as not to plastically deform under load.

I always thought they did it that way because they would rather have the containers fall off than stay tight and pull the ship over on its side.

Rationally it seems that even single-lashes in the triangle up to one or two containers below the top outside would prevent this problem. Single lashes (one diagonal) would transfer the force, and would be relatively fast. I would think insurers would require this.
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I would guess that the longer the tie downs were the less effective they are as the angles get steeper and loose lateral stability, unless they were made very long and attach to the ship several stacks over. To make the ship's holding frame guides taller would add complexity, cost, weight and reduce flexability on how locate different size containers.
Some years ago a container ship lost a lot of containers, somewhere around either Holland or Spain. One of the theories was there was a harmonic between the ship size, shape and the wave height to cause the waves to slap the side of the ship and push up on the containers.
I know oil tankers used to be much larger than they are now. (Suez Canal was closed at the time) They were very restricted where they could go and what ports they could use. Are container ships following the same path of size complexities countering the shipping efficiencies of larger ships?

A really interesting video and very well explained. I followed the saga closely of ONE APUS, 2 years ago. As you say, it is all about money, get the containers on & off the ship as quickly as possible. If the container falls overboard, it cost the shipping company nothing as they are not liable. It is for those sending goods in a container to make sure their goods are insured.

How much of an effect does damage to containers (Dents and dings from traffic incidents/handling bumps, or forklift forks from inside) have? And plain old metal fatigue from years of service, especially around the connection pockets.
I also wonder how many of these stack collapses are started when the load inside a container shifts.

I said it the day I saw my first, big container ship and I'll say it now - what kind of moron sends one of these ships into potentially rough seas without expecting a potentially disastrous loss? And why should these morons be able to shift that loss over to an insurance company? Insurance policies are written to cover unusual losses, not a non-stop stream of preventable losses. Our ocean floors may soon be littered with containers full of merchandise. It's disgusting.

As you say,time, money but also health & safety.

the coffee fund tip jar donations is worth it for the high tech props, lol. B)
I also suspect that there may be a structural element to not adding lashings to the top with the total down forces on the bottom containers in the entire stack, there must be a limit to just how much force a container can take before it buckles from down-force on it.

Just a thought ( this would be a safety nightmare ...), couldn't someone be lowered down in a cage by crane onto the top of the stacks then lash the inside top corners of the containers on the outer of the row to the next container towards the centre? Thinking you'd have to lash say 3 containers to each other on the port side and 3 on the starboard side. You could do the whole row but that might be overkill . Not sure if that makes sense ? It would slow down unloading for sure , cost serious $ too in labour .

This man just wanted to host a show where he gets to play with Lego, and I'm not even mad at him for it...😆 🤣 😂

Fascinating, time and money prevails as always.

I learn something new every time. Thank you.

Chair of the department of Political Science, History, Criminal Justice and Legology.

Just like so many areas of our society - no accountability, no care, no incentive to prevent crazy losses and environmental damage. As someone with a couple of precious things about to take container ship voyages, seeing those stupidly barely-secured stacks makes me angry and worried.

Thank you for this update.
I was going to mention some possible solutions ; but now I see that nobody cares.
> How disappointing/
So basically it’s load up as much as you can /as fast as you can. No quality controls. And if stuff gets lost at sea, who cares.
> But the thing is -not all merchandise is easily replaced. Because not all resources are infinite..
> I guess everyone is jaded by now. How very sad to see …

Oh wow Sal ..You bring up a interesting point....Perhaps..could they take the top 6 layers of containers like a flat bed semi truck load .Could they install Hydraulic wrenches on each side of ship at each row of containers...and use the over head containers cranes to help run cables up from the starboard side up and over and down over to Port side a tighten the cables...and like a truck load alternate from left to right of tightens cables..We do see why they only turn buckle the bottom 3-4 rows..How would they ,the crew climb 5. -10 Story tall containers walls.....WoW Sal your explanation of the containers tipping over is amazing....Thank you Sal for your neat Inspiration on this using Cables run over top of each row stacks after the containers shore cranes loads the last containers for that row.....Hopefully the cables would help prevent the outer stacks of containers falling in the water which ,like you pointed out just domino effect 😀....The inter rows.?????

where do they put the empties ? If they are underneath full then that would be a weak point

It seems to me that if the containers were stacked perpendicular to the side of the ship it would be much more difficult to tip the stack.

Hi Sal, good job again. You are mostly on track, but I have a couple of comments:
You are correct about the "time & money" driving this. Up until last winter and the ONE Apus casualty, historically the annual losses are about 2000 containers per year, out of the roughly 200M containers shipped. A loss rate of only about 0.001%, or 1/100,000. These are numbers that the insurance carriers can easily live with. To reduce the losses significantly would not just require extra lashing and longshore bills, but also a significant reduction in deck capacity of these ships, which is serious $'s. These cost-benefit assessments are looked at periodically to see if the container lashing guidelines should be adjusted. (Many believe that now it is time again based on the last two winter season losses.)
You are off on a tangent when you talk about ship twist. Yes containerships twist but this is a very minor contributor to this issue of losses. What is really important is predicting the maximum roll angle which is the major driver of horizontal accelerations of the containers. The container lashing standards specify a "design' roll angle and roll period (based on ship size and ship stability or GM), which assumes a big storm and normal helming of the ship. But there of 'off design' conditions that can exceed this resulting in container losses, like driving the ship too close to a hurricane, or a power failure during a storm, or parametric roll, or just a bigger storm than was assumed to predict the design roll angle. Parametric roll is not at all about ship twist, it's about the wave loading frequency being synchronous with the ships roll period, which amplifies the roll angle. It remains to be seen if any of these was applicable to the Madrid Bridge.
The structures between the deck stacks are called Lashing Bridges. They started out as 1-tier high, and as the ships got bigger they are now 2/3/4-tiers high. This is what is required to get reasonable weight stacks up to now 9-high. You can't provide extra lashes to the upper tier containers unless you continue to raise the lashing bridges even higher.
The video showing the manual tugging on the twist-lock handle is showing unlocking, not locking. Virtually all twist-locks are 'semi-automatic' (or even fully automatic) today so they automatically lock when being loaded. Semi-automatic twist-locks need to be manually unlocked, like in the video.
Your description of the independent stacks and how they are lashed and secured is excellent and accurate. It's also very true that when one stack fails, it pounds up against adjacent stacks every roll, which will eventually cause the single failure to spread transversally across the ship within a single Bay. Also the outboard stacks have additional margins and lashings to account for the wind pressure. If you loose a single outboard stack overboard, then the interior stacks are often vulnerable and not capable of taking the combined max roll angle and wind pressure.
Yes, accurate container weights are an issue. It's getting somewhat better with the latest IMO guidelines for terminals, but some incorrect weights (and incorrectly labeled hazardous containers codes) are still not identified and are occasionally getting loaded onboard.

The reason they’re willing to take the risk is because they don’t take the risk. I had some containers go off the side of the ship. We were told it was an act of God and to go to our insurance carrier to get the pay out. The shipping line paid nothing.

Sal
You got it backwards .
Pulling down on the pigtail of a twist lock, unlocks it for discharge.
They are designed to automatically lock
When one box is loaded on top of another. The longshoremen must insert them into the corner castings correctly on the dock for this to happen.

Excellent description of " carefree" shipping. Can you demand that your container is sequre? I would charge double the cost ofthe material shipped and then sue them for incompetence. Mind you this is considering that you as a customer did not sign off on the shippers incompetence in securing the shipment and dont care how they secure your stuff.. Money is the penalty for not caring to do the job correctly. Surely not all shippers operate this way, if they do thats just not exceptable .😠🤬

Good explanation. They should be charged the same as on the road for an insecure load.
Wonder how so much garbage and toxic crap ends up in the ocean?
These loads are so top heavy, I wouldn't be caught dead on one of these ships.
GREED!! Easy to dump excessive top loading of the ship to prevent capsizing the whole ship.
Did I mention GREED!!

The Zim Kinston lot over 100 containers overboard in rough seas of the west coast of Vancouver Island in late 2021 en route to Vancouver. A number of other containers caught fire. The Zim Kingston continued down the coast to Victoria where the fire fire was fought and eventually put out. The ship is currently being off loaded in the port of Nanaimo, 90 km north of Victoria. To date, nothing has changed with container ships. None of the containers were recovered and carried by currents are now sunk off the north coast of Vancouver Island.

I predict that you're going to see news agencies crying out that something has to be done because the Ocean is being filled up with derelict containers making the seas shallower

Looking at the weather analysis maps for the 7th I don't see Very high winds or waves in the area of the vessel however there seems to have been a very long. Swell from the Northwest so I suspect parametric rolling could have been an issue as wave lengths likely were in the range of 900-1200 feet

Thanks for the explanation! 🙏

Your Video’s are like sitting in your class room I have learned so much about shipping from you Thank You

Great schooling, now I know the dynamics of why this happens. Thank You.

Nice discussion. Color code the containers based on weight where the heaviest are the purple and the lightest are more towards the green end of the spectrum. surely that can help simplify stacking according to weight.

Thanks for the great explanation. I've always wondered why the top stacks were not secured. 👍

What amazes me is that some of the containers are dangling by one twist-lock!
Might it not be quicker to simply loop a cable around, say, one row of three stacks of containers here & there? Or better yet, a frame at the top, laid by the container crane, which ties two stacks together. Doing that in a mathematically staggered pattern would add a lot of strength.

It looks like the twist locks could be improved , but when the stack leans to one side the weight of the upper containers is transferred to one side wall of the lowest container leaning , causing that side wall to collapse . If there was a way to lash the top containers with a wire rope system delivered to the top of the stack by the Crain on a pallet or special lashing container. Holding the top of the stack together will help stop the stacks from leaning. If you know your heading into ruff seas have the Crain put the pallet or special lashing container on top and a crew can walk on top to lash down the load.

They don't do the lashings clear up because of $ & time. What's worse, the dollars that fall overboard or dollars spent in pay to the guys that would be lashing them up to the top?

Surely there's got to be some sort of quick connect lashing that could be made to stabilize the top layer.

They need start designing and building the containers so that they can be stacked turned 90 degrees like the Legos. Just have to know which stack to put the taller or shorter ones. NGH!

The longest cross lashings are secured to the bottom of the FIFTH tier container. So, out of 8 tiers, only the top 3 tiers are not lashed down. Instead, the topmost containers are fitted with bridge fittings tying the topmost containers together side-by-side. Or are these bridge fittings not being fitted to "save" time in port?

Oh Sal Back in the good oh days..You did bring up a interesting point of hull twisting We were working on a Sealand mechanical pump and remembered taking a stairway on the bridge down (We were exploring too).we were amazed how far the bottom of hull was (It reminded us of one big open barge ?)Wow...(The ship was empty in for Maintenance)

Oil tanker demand will triple in March, buy NAT now!! This stock will reach $3.50! Semper Fi

Knowledge when shared increases manifold, very informative video!

One of the lost containers probably had my jar of Polish pickles on it.

My two cents twist locks are not maintained they're not lubricated they are not inspected there have been many incidents were twistlox fell out of the bottom of a container while being loaded and injured those below many more have fallen out and luckily injured nobody but it just goes to show that they were not functional I would venture to say in these circumstances containers may have been loaded without the missing twist-lock

There have been a number of winter storms that brought snow, ice, and high winds to the eastern half of the US in the past few days. I would expect these to have caused rough weather out at sea.

Great content!
Same old story going back to the earliest days shipping cargo, the more ships,the more cargo versus ship and cargo losses = profit or loss!
Ship owners are still cynical gamblers!

Why don't they cross lash across the tops of the containers to have more lateral rigidity of the stacks? They could do this after leaving port and remove before arrival. Probably only have to do the outer couple stacks on each side.

Seems like you could get very large ratchet straps on the top ones go from one top on the outside stack to say the top of the 3rd stack so now instead of just having single rows you have a lashed 3 on each side on the top to make slabs and unlashed in the center

Do nothing likely to continue:
The shipping companies are a law unto themselves. the They rely on the forwarders insurance and the ships insurers to foot the bill.
Consequential damages, risk to navigation at sea not a problem for Shippers So they have no reason to do better!
Perhaps Universally
1. The accurate tracking and reporting of container weights is only part of the issue.
2. How the containers are packed internally can be a root cause of toppling. This happens on the Journey to the Dock/Port or at sea.
Perhaps the Coastguard and the Marine Authorities as well as DOT could actually do their bit.

Thanks for an excellent explanation. Using your Lego example, would it be possible to develop a module which ties the topmost containers together which could be removed by the cargo cranes? If so, then the amount of lost containers would/should be reduced.

Were those 45 or 53 footers in that stack? The reason I ask, is it looks like they have extensions on the ends. It follows you can load longer and heavier loads in those that might need to be accounted for. Dunno...

Its not just about time an money its a bout practically, there is nowhere for the lashers to stand to reach the top four containers. The holds frame work doesn't go high enough

Thank you for the this educational. Why not constructing the vessel with guide cells extended to the top of the stack over deck?

Interesting - I had an acquaintance who reportedly wrecked his sailboat hitting a floating container in the open ocean at night. Lost the boat but was rescued by a passing ship.

It seems as though the crane operator would be able to judge weight shifting within the containers while loading or better yet as the container is loaded to start with, we have that type of information right? But then again, they might not all go to the same port I can clearly see layers of the same shipping company and the layers are horizontal rather than vertical which makes sense

Sal have you ever did a video on how long a large Containers ships run ? It be interesting to know from all the hull twisting ,You would expect hull Cracks ??$ After 8 years or so ??

No .... THEY are not "taking the risk" ....WE ARE .... Higher Insurance Rates are passed on to the CONSUMER through higher SHIPPING COSTS ... and what about irreplaceable loss ??!!!!

I did not know its was this common for the containers to fall off

still love the legos

how do they get the containers off at the port if they aren't standing upright after loosing some
?

Another great episode, thanks Sal.

The elephant in the room; why don't they do a deal with Lego to make containers out of Lego??
;)

At s charge of 20 thousand a container shipping cost versus 2500 a few years ago they need to take a bit more time or find a better weight communication method . Long shoremen arrive to work in Porsche 911 and they deserve the pay but let’s get better are weight management

Excellent subject and explaination...Thanks Much!

There is probably a good reason why, but could the containers be stacked horizontally across the width of the ship rather than the length of the ship. This would seem to be more stable to side to side rolling.

why are the top containers pulling the containers that are lashed down off the ship with them? why don't the interlocks fail before the lashings?