Pioneering cranage methodology
Powerhouse Parramatta has reached a new construction milestone with the first steel trusses on the project’s distinctive steel exoskeleton being installed by Marr’s cranes working on the project.
Powerhouse Parramatta is being constructed by Lendlease on behalf of the NSW Government. An architectural collaboration between Moreau Kusunoki (Lead Designer) and Genton (Local Architect), it is one of the largest structural engineering and architecturally complex projects underway in Australia. Marr has been engaged by Lendlease to provide the cranage solution.
On completion, Powerhouse Parramatta will be the largest museum in NSW at 30,000 square metres, featuring more than 18,000 square metres of exhibition and public space, including Australia’s largest column-free exhibition space. Designed so that its exterior superstructure is a celebrated architectural feature, the museum’s two buildings are designed with three types of steel lattices as an exoskeleton.
With the structural support for the trusses that achieve the column-free exhibition space sitting on the exterior of the building, the challenge from a construction point-of-view was how to install the heavy steel trusses and deliver the project to the architectural team’s vision. Knowing that an innovative cranage solution was needed, Lendlease engaged Marr during the planning stage.
Working in collaboration with Lendlease’s construction team before onsite works commenced, Marr’s solution was to install three of Marr’s Heavy Lift Luffing (HLL) tower cranes including a 330-tonne capacity Favelle Favco M2480D, 150-tonne capacity M1280D and 96-tonne capacity M860D.
By allowing bigger, heavier modularised sections of the exoskeleton including steel trusses weighing to be installed in a single lift, the cranage methodology will reduce the number of lifts required and decongest the site. With the first trusses installed weighing 50 tonnes, the heaviest lifts will be trusses weighing up to 120 tonnes.
According to Marr’s Design & Engineering Manager, Andrew Coffin, “From an engineering standpoint this project is a significant challenge due to its complexity. In partnering with Lendlease, as the managing contractor, we managed to jointly streamline the construction methodology and adopt a crane solution to tackle the complexity of the project and increase efficiency. The key was understanding the desired approach to building the project and designing the crane solution around that idea.”
“This is an incredibly exciting project to be part of. Just as Powerhouse Parramatta is a celebration of Australian innovation and achievement, its construction will be testimony to the impact that technology, innovation, design and engineering have on our world.,” said Marr’s Managing Director, Simon Marr.
“It took vision, innovation and collaboration to design a cranage solution that will deliver this amazing project, and Lendlease had the vision to see the benefits of what we could bring to this project. It’s a great example of achieving a better solution for the project team by asking ‘how do you want to build the project?’ and designing the cranage solution around a construction methodology instead of construction being driven by the limitations of the crane as we are constantly seeing in other parts of the world,” Mr Marr said.
With sustainability sitting at the heart of the building and its construction, Powerhouse Parramatta will be Parramatta’s first public 6 Star Green Star Building. It is also one of the first projects in Australia to use 100% renewable diesel (HVO100) in Marr’s cranes working on the project.
Construction of Powerhouse Parramatta is scheduled for completion in late 2024.
[edit] Related articles on Designing Buildings
- Amazing cranes.
- Avoiding crane collapses.
- Banksman.
- Bituminous mixing and laying plant.
- Cherry pickers.
- Compressed air plant.
- Concreting plant.
- Construction plant.
- Construction tools.
- Counterweights.
- Cranes.
- Crane supports.
- Crane regulations.
- Driving and riding safely for work.
- Earth-moving plant.
- Electromagnetic overhead cranes.
- Equipment in buildings.
- Excavating plant.
- Forklift truck.
- Gantry.
- Hoists.
- Lifting device.
- Pulley.
- Rubble chute.
- Scaffolding.
- Scissor lift.
- Site storage.
- Stacker.
- Temporary works.
- Types of crane.
- Winch.
- Work at height.
- Work at height regulations.
Featured articles and news
Airtightness in raised access plenum floors
New testing guidance from BSRIA out now.
Picking up the hard hat on site or not
Common factors preventing workers using head protection and how to solve them.
Building trust with customers through endorsed trades
Commitment to quality demonstrated through government endorsed scheme.
New guidance for preparing structural submissions for Gateways 2 and 3
Published by the The Institution of Structural Engineers.
CIOB launches global mental health survey
To address the silent mental health crisis in construction.
New categories in sustainability, health and safety, and emerging talent.
Key takeaways from the BSRIA Briefing 2024
Not just waiting for Net Zero, but driving it.
The ISO answer to what is a digital twin
Talking about digital twins in a more consistent manner.
Top tips and risks to look out for.
New Code of Practice for fire and escape door hardware
Published by GAI and DHF.
Retrofit of Buildings, a CIOB Technical Publication
Pertinent technical issues, retrofit measures and the roles involved.
New alliance will tackle skills shortage in greater Manchester
The pioneering Electrotechnical Training and Careers Alliance.
Drone data at the edge: three steps to better AI insights
Offering greater accuracy and quicker access to insights.
From fit-out to higher-risk buildings.
Heritage conservation in Calgary
The triple bottom line.