Guest essay by Eric Worrall
According to a new study, if civic authorities don’t properly clean clogged bridge expansion gaps, warmer temperatures might hasten the failure of major support structures.
Climate change may see one in four US steel bridges collapse by 2040
ENVIRONMENT 23 October 2019
By Ruby Prosser ScullyBridges in the US and other high-income countries are ageing and deteriorating. Last year, a large portion of an Italian bridge built in the 1960s collapsed, killing more than 40 people.
One of the most common problems involves expansion joints. These allow sections of a bridge to swell and shrink in warmer weather without weakening the structure. But they cause major structural problems if they malfunction.Hussam Mahmoud at Colorado State University and his colleague decided to model the effects of increasing temperatures on steel bridges around the US.
…
Mahmoud analysed data on the condition of around 90,000 bridges across the US and modelled how the expansion joints would be affected under temperatures predicted for the next 80 years.
They found that one in four bridges are at risk of a section failing in the next 21 years, rising to 28 per cent by 2060 and 49 per cent by 2080. Almost all are set to fail by 2100.
“These failures are very serious,” says Mahmoud.
…
Read more: https://www.newscientist.com/article/2221040-climate-change-may-see-one-in-four-us-steel-bridges-collapse-by-2040/
The abstract of the study;
Impact of climate change on the integrity of the superstructure of deteriorated U.S. bridges
Susan Palu,
Hussam MahmoudPublished: October 23, 2019
Read more: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0223307
Bridges in America are aging and deteriorating, causing substantial financial strain on federal resources and tax payers’ money. Of the various deterioration issues in bridges, one of the most common and costly is malfunctioning of expansion joints, connecting two bridge spans, due to accumulation of debris and dirt in the joint. Although expansion joints are small components of bridges’ superstructure, their malfunction can result in major structural problems and when coupled with thermal stresses, the demand on the structural elements could be further amplified. Intuitively, these additional demands are expected to even worsen if one considers potential future temperature rise due to climate change. Indeed, it has been speculated that climate change is likely to have negative effect on bridges worldwide. However, to date there has been no serious attempts to quantify this effect on a larger spatial scale with no studies pertaining to the integrity of the main load carrying girders. In this study, we attempt to quantify the effect of clogged joints and climate change on failure of the superstructure of a class of steel bridges around the U.S. We surprisingly find that potentially most of the main load carrying girders, in the analyzed bridges, could reach their ultimate capacity when subjected to service load and future climate changes. We further discover that out of nine U.S. regions, the most vulnerable bridges, in a descending order, are those located in the Northern Rockies & Plains, Northwest and Upper Midwest. Ultimately, this study proposes an approach to establish a priority order of bridge maintenance and repair to manage limited funding among a vast inventory in an era of climate change.
Naturally the study uses RCP 8.5 for its most dire predictions, though they also consider other scenarios like the relatively benign RCP 2.6.
Interestingly the study authors appear to have used average rather than peak minimum and maximum temperatures applied to a bridge with dysfunctional expansion gaps, to predict when each bridge will exceed its structural design tolerances.
The use of average is an interesting choice of metric. I have seen plenty of software systems fail because the hardware capacity estimates were based on average load rather than peak load.
Although peak temperatures would have made the modelled risk of future disaster seem more likely, I suspect the use of peak temperatures might have flattened the impact of global warming on their risk scenario, by raising the modelled risk of immediate bridge failure relative to future failure.
Leaving aside the fun with numbers, the real takeaway is, make sure politicians make an effort to maintain road infrastructure. Defective, poorly maintained bridge expansion gaps are a serious safety risk regardless of whether global temperatures rise. A bridge as poorly maintained as the study authors propose is a disaster waiting to happen. Global warming, if it occurs, might hasten that disaster, but the risk of failure of a poorly maintained bridge is severe regardless of what happens to global temperature.
NOVA had an episode on why bridges collapse and did not touch on climate change at all. More about improper design and the belief that steel in concrete won’t rust and concrete doesn’t mind encasing steel under tension. Lots of old bridges have a poor design. I can’t see engineers siding with climate nut-bars on this. Concrete is cheaper than steel so it was used in the italian bridge. Hope they don’t bring in a rain and humidity tax.
https://www.pbs.org/video/why-bridges-collapse-ym374u/
OMG the stupid burns!! Old, poorly maintained infrastructure may collapse – due to hmmm, maybe being old and poorly maintained- no that’s too simple and won’t get funding- yes, Global warming apocalypse that’s it. Gotta go barf now.
It seems to me that the RCP 8.5 was written into the IPCC report to provide cover for academics who want to write impactful papers.
The lower Mississippi R. has got to be one of the moct extreme environments for bridges in the USA. Where are all the collapsing bridges?
It ain’t the heat that could do in the bridges, it’s the delta heat. Think how good global warming could be for roadways, no more potholes due to freeze-thaw.
Poor maintenance may cause poorly maintained bridges to fail. Acts of god may cause poorly maintained bridges to fail.
In the Netherlands especially in Amsterdam we more and more frequently have to cool bridges, especially with tramway rails on them with the water below to be able to lift them for the reasons mentioned, expansion of metal in heat, so make sure to cool your bridges if necessary.
Just an idea – maintain the bridges properly?
Bridge engineer here. For a 20 – 30 m (60 – 90 foot) bridge span, which is typical for most overpasses and highway bridges, you’re usually dealing with 2.5 mm or so (1/16 – 1/8 inch) of temperature expansion/contraction that must be designed for. That comes from design codes, and should cover the extreme temperatures over the bridge life. And that will be on the high side since my climate of Alberta, Canada sees +30 to -30 Celsius in a typical year (also, pardon my use of metric, above).
So I haven’t run any numbers, but it’s really hard to believe that a few degrees of warming is going to max out one in four bridge expansion joints. If the temperature changed by 5 degrees Celsius in an RCP 100 scenario (why not go crazy), pretty basic math but if 60C of difference creates 2.5 mm of change in bridge span length then 5 / 60 x 2.5 mm = another 0.2 mm makes 2.7 mm expansion instead of 2.5 mm. If that’s going to fail one in four bridges then I’ve got a bridge to sell you.
My Lasagne tasted a bit stale this weekend. Must be Climate Change. My friend’s dog was very sleepy too – surely Climate Change. And there was the issue with my hair. Why don’t I have hair? The Climate – that’s it. Why didn’t I think of that? It’s so simple if one just puts his mind to it.
Utter Drivel.
“What caused the Genoa bridge collapse?
We’ve looked at what experts say might have caused the Morandi Bridge to fall down. The demolition of the Morandi bridge, which gave way on August 14 last year, sending dozens of vehicles plunging 50 metres to the ground below, began in February.
Jun 28, 2019
The concrete sections of the bridge were stretched together, biased.
It was not rust that brought the bridge to collapse. This bridge was very old, italia had to meet the EU requirements: the famous “black zero” in the budget balance
Such a bridge must be constantly observed
+ incl. Maintenance
There simply was no money left in the state’s balance sheet – the lira / €€ were reserved, urgent, to prevent the “mass extinction climate change”.
Catastrophic!
https://www.google.com/search?client=ms-android-huawei&sxsrf=ACYBGNR_Cym1JDxBEAB0bL1tSToFupzKxQ:1572340501328&q=milano+Bridge+collaps&nfpr=1&sa=X&ved=2ahUKEwi1o7DokMHlAhXikYsKHdCzCScQvgUoAXoECAkQAw&biw=360&bih=518