Francis Scott Key Bridge collapse in Baltimore...

A huge shipping vessel that collided with a major bridge in Baltimore has left numerous people missing and could cause significant economic and social disruption, experts say.

Many questions remain about the collision, including why the ship hit with the bridge in the first place. But many of them are structural: how was the ship able to reach the bridge, why was it not protected against such collisions, and why the bridge collapsed so quickly once the collision had happened.

Experts say it may be too early to say exactly what happened during the collision and the collapse that resulted. But they caution that bridges of this kind are specifically built with protections against such crashes – and that it may have required a huge impact to make the bridge fall in this way.

Bridges have collapsed from collisions with ships before. Between 1960 and 2015, there were 35 major bridge collapses that happened after they were hit by a marine vessel, said Toby Mottram from the University of Warwick.

That ever-present danger means that modern bridges are built specifically with such collisions in mind. Engineers have developed a range of requirements and safety solutions aimed at securing the integrity of the bridge even in the case of the collision.

Bridges of this kind – large, and crossing shipping lanes – are required to protect the piers or columns that hold them up. Those protections come in a variety of different forms, said Robert Benaim, a bridge designer and fellow of the Royal Academy of Engineering.

“These protections are either in the form of structural protections like ‘sacrificial dolphins’, which are made of steel and embedded in the seabed to stop or divert a ship. They can also be in the form of artificial islands; these are for very large ships and mean the ship will never reach the bridge pier itself.”

The Francis Scott Key Bridge is relatively modern, so experts would expect that it was built with the assumption that its supporting piers might experience a collision. Those piers are important because any structural failure in them – especially in the centre – means that the whole bridge would collapse.

But those protections only go so far. “A vessel’s mass and velocity are key factors in the level of impact force generated and there is an economic and practical limit to what level of impact force can be designed for,” said Lee Cunningham, a reader in structural engineering at the University of Manchester.

“Similarly, the direction of impact is also an important factor and design assumptions for this would likely be based on the position of the dedicated navigation channel.”

In the case of the Francis Scott Key Bridge, its design in the 1970s might not have taken account of the vast size and power of the ships that sail under it today. The ship that collided with the bridge – the ‘Dali’ – was vast, at 300 meters long and 48.2 meters wide, loaded with huge amounts of cargo and travelling at a still unknown speed.…….




https://www.independent.co.uk/tech/francis-scott-key-bridge-collapse-baltimore-b2518771.html