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Modjeski and Masters Rehabilitates St. Claude Avenue Bridge for Port of New Orleans

by: Dawn Olsen
A general view of bridge during construction. Both counterweight links have been cut at this point. One link is being painted/prepped under the tarp. The new upper half of the counterweight link is being installed on the far link.
A general view of bridge during construction. Both counterweight links have been cut at this point. One link is being painted/prepped under the tarp. The new upper half of the counterweight link is being installed on the far link.
The new top half of the counterweight link is installed onto the existing lower half of the counterweight link on the St. Claude Bridge at the Port of New Orleans. The link is shown disconnected from the joint location on the left side of the picture.
The new top half of the counterweight link is installed onto the existing lower half of the counterweight link on the St. Claude Bridge at the Port of New Orleans. The link is shown disconnected from the joint location on the left side of the picture.
Installation of the new pin into the first link joint
Installation of the new pin into the first link joint
A view of the first link joint during the step of aligning the counterweight link with the new top half and new internal bronze bearing/bushing into the existing structural members. The bores had to be accurately positioned concentrically so that the new pin could be inserted.
A view of the first link joint during the step of aligning the counterweight link with the new top half and new internal bronze bearing/bushing into the existing structural members. The bores had to be accurately positioned concentrically so that the new pin could be inserted.
The St. Claude Bridge raised with barge passing underneath
The St. Claude Bridge raised with barge passing underneath
There was something about the St. Claude Avenue Bridge in New Orleans that seemed off. The bridge’s members had unusual stresses, four pin joints were misaligned and the seating at the bridge’s “toe” was uneven. While these issues had been identified in an earlier investigation, the report – which a third party had conducted – didn’t pinpoint what, exactly, was going on with the 100-year-old bridge. After the Port of New Orleans engaged Modjeski and Masters to conduct a thorough inspection, the firm put together a team of mechanical, electrical, and structural engineers. What they found on site was not all that uncommon for a historic bridge. But what they saw still put into motion a series of urgent repairs that would alter primary bridge elements.

Senior Mechanical Engineer Tyler Miller and Field Services Project Manager Anthony Schoenecker, both registered professional engineers, worked on the project. They were used to conducting structural and mechanical inspections anyway, and the New Orleans bridge engineering firm they work for, Modjeski and Masters, has maintained a relationship with the Port since the 1980s. Onsite, a team managed by Schoenecker, including Miller as lead mechanical engineer, crawled over (and in) every inch of the St. Claude Avenue Bridge – which is approximately 95.5 feet from the main trunnion to the toe – and gave special attention to the main bridge joints. They put together the evidence to support their theory of advanced joint wear; damaged and protruding bushings, cracks in one of the counterweight link members and irregularities with bridge seating – all pointing to worn-out joints. Fixing the joints became a priority. Thankfully, there was a scheduled 60-day outage on the calendar.

The U.S. Army Corps of Engineers had wanted to do maintenance work on the Industrial Canal lock system, which connects Lake Pontchartrain with the Mississippi River. To do the work, however, they had to shut to down the waterway and de-water the locks for 60 days. After the USACE notified the Port of their plans, the Port decided to take advantage of the 60-day waterway closure. It was an accelerated schedule, but it was still enough time to implement repairs while they simultaneously closed the St. Claude Avenue Bridge. Soon after the Port learned about the upcoming closure, they contacted Modjeski and Masters, who got to work designing all the parts necessary to complete the project.

History of the St. Claude Avenue Bridge
There’s no denying it – the St. Claude Avenue Bridge is complex. Designed by American structural engineer Joseph Baerman Strauss in the early 1900s, it’s usually described as a “single-leaf Strauss heel trunnion bascule bridge.” (Think “drawbridge,” like those over the Chicago River.) The number of “leaves” a bridge has is equal to its number of spans that rotate. For the St. Claude Avenue Bridge, it’s one. For London’s iconic Tower Bridge, it’s two. As for “trunnion?” It’s a French word that refers to a rotating joint that lifts the “leaf” – which, for the St. Claude Avenue Bridge, includes a 1.2-million-pound counterweight to offset the weight of the span during openings. It’s also worth noting that Strauss bascule bridges, including the St. Claude Avenue Bridge, have a total of eight rotating joints.

Originally, the St. Claude Avenue Bridge was a way for railroad freight traffic, streetcars and pedestrians to cross the Industrial Canal. Over time, though, conversions to the bridge allowed vehicles, cyclists and pedestrians to cross from the Holy Cross neighborhood to the Bywater and St. Claude neighborhoods. Now, there are up to 20 openings a day. It’s a busy bridge, but it’s also one of the city’s fastest – it only takes a few minutes for the bridge to go up and back down. Like any 100-year-old infrastructure, though, things wore out over time.

“It’s like keeping a Model T running,” said Schoenecker, who was involved in project setup and coordination, and who advised the client on the severity and direction of the project. “You’re going to have to replace things over time. With that said, bridges have a much longer usable life span if they’re maintained.”

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Without intervention by Modjeski and Masters and the Port, the St. Claude Avenue Bridge could’ve become inoperable. The original bronze bearing in the “problem joint” had worn away, which meant steel was rubbing against steel. The joint was rapidly deteriorating, which led to the cracked member and the fact that the bridge’s toe was moving transversely. And while the bridge was nowhere near catastrophic failure – the Port does a great job of continually inspecting and addressing major issues, Schoenecker said – there was the chance that the bascule bridge would become “just a bridge.”

Taking Advantage of a Planned Outage
Although Modjeski and Masters had worked with the Port for many years, the St. Claude Avenue Bridge project was the first project under a new contract. (Modjeski and Masters had competed against other firms to win a three-year contract for indefinite services and deliverables for the Port.) In the spring of 2020, the Port came to Modjeski and Masters, knowing they had to hit the ground running. They knew the St. Claude Avenue Bridge was a vital link from one community to another, so they wanted to minimize the disruption for both waterway and vehicular traffic.

“Knowing that you’re going to have an outage like that is very rare,” Miller said. “If we hadn’t been able to start the project or the design until the bridge became inoperable, it could’ve been out of service for six months. That would have resulted in all sorts of problems, including blocking marine traffic and possible fines from the Coast Guard.”

Supporting the Counterweight and Essential Repairs
Miller, who led the mechanical design, repairs and coordination of parts for the project, said the lead time allowed the team to engineer a solution to support the 1.2-million-pound counterweight – disconnecting critical portions of the bridge to replace one of the four mechanical pin joints and the structural link between the pin joints.

“We had worked with the contractor and subcontractor before on similar movable bridges. We knew we had to work together because, by the time they were awarded the project, the timeline was even shorter. So, everyone was receptive to each other’s ideas, and in the end, they came up with a really good idea to support the counterweight.”

Building a support system for the counterweight was a must. Knowing they would probably need special permits to create such a system, Modjeski and Masters started the permitting process before the design was even 25 percent complete. They worked with geotechnical consultants – even though that wasn’t part of their original scope – and explored multiple solutions. Since the project would take place during hurricane season and was only a couple miles from the levee that failed during Hurricane Katrina, it was essential for the counterweight support to not harm the flood walls or levees.

“We knew there were multiple ways to support it, so we provided contractors and subcontractors with the loading info and criteria they needed to come up with their own ideas,” said Schoenecker.

A subcontractor suggested an on-grade support system that allowed their bid to be 30 percent less expensive than original engineering estimates. The system was a little undersized, though, and there was another issue to work through – Louisiana soil. (It’s unsurprisingly unreliable, like building on toothpaste.) Using input from the Port, and working within project constraints, Modjeski and Masters worked with the subcontractor to finetune their calculations and come up with a system that worked. The next step was getting the Port and the USACE to approve the system. It was a bit of a hard sell, given the unknown soil conditions, but after numerous discussions, they agreed the on-grade support was a viable system. After all, the team was being conservative with its numbers; no way were they going to risk something shifting. The USACE wanted to be extra cautious, however, so they set up adjacent flood wall monitoring that checked for one-eighth of an inch of movement every 15 minutes during the initial loading. It was never an issue.

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By the time construction mobilization began in late August, COVID-19 had swept through the world and people were worried about the job site shutting down. New safety protocols were put into place and Modjeski and Masters, like so many other companies, pivoted.

“I know it’s the big buzzword,” said Schoenecker. “But the pandemic really did play a role in how this project was completed. It was our first major rehabilitation project during COVID-19, so we changed how we operate our business as we solved the project.”

Thankfully, they had done most of the design work before the worst of the pandemic. On September 4, 2020, the 60-day outage began. During disassembly, the team confirmed that the problem joint was a major issue. Because Strauss bridges totally enclose the moving parts of a joint, it’s hard to fully identify what, exactly, is going on. You have to do the best you can with what you see from the outside, said Miller. For the St. Claude Avenue Bridge, once the joint was disassembled, the extent of excessive internal wear was observed. It was also evident that the top half of one counterweight link member was no longer square with the side plates that supported it. As a result, it was bent. The solution was to replace the top half of the counterweight link members.

“We had to be accurate. Very accurate,” said Miller. “The contractor measured the original counterweight link member, cut it, and then installed the new part so the member was back to its original length. It added a lot of complexity to the project.” The joint was also interesting. Once the original early 1900s pin was removed, a new internal bronze bearing was inserted into the existing structure. In order for the new pin to be inserted, the bores had to be exact. To hold the new pin in place and keep it from rotating, dowel pins were installed. Cooled by liquid nitrogen, the dowels shrunk to just the right size. After replacing the joint, all of the other issues – the moving toe, the uneven stress on the members – disappeared.

“That’s one of the reasons I found this project so satisfying,” said Miller. “We didn’t have to take care of multiple problems with multiple fixes. Oftentimes, with movable bridges, the problem seems obvious but can be misleading. More often than not, you have to think outside of the box to find the real problem and solution.”

A Successful Conclusion
The $2.75 million project wrapped up on November 27, 2020, on time and under budget. Although the accelerated schedule was challenging, Miller and his team did an advance procurement contract to get the new pins fabricated as they were completing the rest of the drawings. As Miller said, they just had to go for it. And Schoenecker, whose team will be inspecting the bridge again in the fall, attributed the project’s success to the back-and-forth, collaborative efforts between Modjeski and Masters, the contractor and subtractors, the Port, and the USACE. “Movable bridges are complex. Unlike static bridges, they have moving parts that wear and that deteriorate. But when you have a client who understands the work that is necessary, is involved in the design process, and everyone gives input, you set yourself up for success.”
Project Partners
  • Owner: Port of New Orleans, New Orleans, Louisiana
  • Engineer: Modjeski and Masters, New Orleans, Louisiana
  • General Contractor: PCL Construction, Denver, Colorado
  • Construction Manager: PCL Construction
  • Fabricator and Field Machining Specialists (subcontractor): In-Place Machining Company, Milwaukee, Wisconsin
  • Contractor’s Engineer (subcontractor): Wiss, Janney, Elstner Associates, Inc., Northbrook, Illinois
  • Supplier of Advance Procurement of Raw Materials: Boland Marine & Industrial LLC, New Orleans, Louisiana


Milestone Dates
  • Start Date: April 9, 2020 – Official Notice to Proceed to start design
  • April 21, 2020 – Final advance procurement raw material details and technical specifications provided by Modjeski and Masters to Port of New Orleans
  • May 15, 2020 – AP bid award
  • June 4, 2020 – Final design plans and special provisions provided by Modjeski and Masters to Port of New Orleans
  • June 30, 2020 – Construction contract bids due
  • July 23, 2020 – Construction contract award
  • August 31, 2020 – Construction mobilization begins
  • September 4, 2020 – Navigation outage work begins
  • October 30, 2020 – Navigation outage work ends
  • November 16, 2020 – Construction complete
  • November 27, 2020—Completion date

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