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Mammoet Installing New Roof 'Cassettes' in Portland

Tue August 08, 2023 - West Edition #17
Mammoet


A key component of the project is the installation of 20 roof panels. To date, Mammoet has installed 16 and the remaining four are expected to be completed by 2024.
(Mammoet photo)
A key component of the project is the installation of 20 roof panels. To date, Mammoet has installed 16 and the remaining four are expected to be completed by 2024. (Mammoet photo)
A key component of the project is the installation of 20 roof panels. To date, Mammoet has installed 16 and the remaining four are expected to be completed by 2024.
(Mammoet photo) To help lead the expansion of the Portland International Airport, Mammoet is constructing a new, seismically isolated roof structure over the central area of the airport.
(Mammoet photo) The roof, crafted mainly from regionally and sustainably sourced wood, has been fully prefabricated between the active runways of the airport over the course of a year.
(Mammoet photo) Depending on the type of panel, each was launched, rolled into place, set directly with self-propelled modular transporters (SPMTs), or lifted with a crane into its final position.
(Mammoet photo) The panels vary in weight with a minimum of 80,000 lbs., with dimensions up to 236 ft. by 164 ft. by 19.6 ft.
(Mammoet photo) Mammoet used four towers of Mega Jack 800 to jack up the roof panels to approximately 55 ft. to allow SPMTs with falsework to be driven underneath each roof section.
(Mammoet photo) At midnight on the day of each move, the runways were closed for the 1-mi. transport of the panel from laydown yard to terminal. The roof sections were moved with care at a speed of approximately 1 mi. per hour.
(Mammoet photo)

The Portland International Airport (PDX) has contracted Mammoet for its main terminal expansion project that will see the installation of 20 roof panels.

The German-based firm specializing in engineered heavy lifting and transport of large objects will help the airport nearly double the size of its main terminal.

A key component of this expansion is the construction of a new, seismically isolated wood structure over the central area of the airport. The roof, crafted mainly from regionally and sustainably sourced wood, has been fully prefabricated between the active runways of the airport over the course of a year. Prior to being moved, the roof panels were disconnected into approximately football field sized pieces to be transported to the new terminal expansion.

Mammoet was responsible for jacking up, transporting and installing 20 roof panels of five distinct types at the airport — all while avoiding passenger disruption.

To date, Mammoet has placed 16 panels to wrap up phase one of the project. Four additional panels will be installed in 2024 during phase two.

Depending on the type of panel, each was launched, rolled into place, set directly with self-propelled modular transporters (SPMTs) or lifted with a crane into its final position.

The panels vary in weight with a minimum of 80,000 lbs. with dimensions up to 236 ft. by 164 ft. by 19.6 ft. Mammoet used four towers of Mega Jack 800 to jack up the roof panels to approximately 55 ft. to allow SPMTs with falsework to be driven underneath each roof section. At midnight on the day of each move, the runways were closed for the 1-mi. transport of the panel from laydown yard to terminal. The roof sections were moved with care at a speed of approximately 1 mph.

Most panels needed to be installed over the top of populated areas of the existing terminal building. With safety at the forefront of the entire project, work was done during strict overnight closures when the public could be kept clear of the work area. Once the area was verified to be clear of all pedestrians, the installation of the roof panels could begin. Each panel, referred to as a super cassette, was installed using stationary skidding propelled by strand jacks and lowered with the skidding jacks onto column isolators.

The next set of panels were then rolled into position down the bottom flanges of the previously set panels. The panels were safely secured with consideration for potential elevated wind and project specific seismic requirements before the public were allowed to reoccupy the area below.

A major complexity of the project was the wood material used in the roof panels' construction. Deflection of the roof panels was a major concern of the client and the roof designers, so at each point in the jacking, transport and installation process, deflection of the roof was monitored and kept within stringent criteria.

Only the super cassette pieces had steel girders in the longitudinal direction to support the 82-ft. wooden arches and to allow the panels to be "launched" using stationary skidding equipment. Also, the supports for the launching jacks were temporary towers supported by wooden piles, which were installed in the 1950s.

To mitigate any issues, Mammoet performed extensive friction testing in its Rosharon, Texas, yard prior to execution to ensure no structural damage occurred to a mockup roof panel and that the design values presented to the client for strand jack anchoring were realistic. When executing the job on site, Mammoet closely monitored the loads and deflections to ensure that they were in line with the tested values.




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