Safe design. Marshall Hotel, Taiwan earthquake.

Safe design. The benefit of hindsight.

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The benefit of hindsight. Changing outcomes for the future.

Safe design. The benefit of hindsight…

In February this year, a 6.4 magnitude earthquake hit regions of Taiwan. The image of a propped up Marshall Hotel in Huelin did the rounds on social media.

Many thought this image was comical (particularly without background of what happened) and sadly, many people lost their lives that day.

Earthquakes can’t be avoided. Every environment, region or structure, however, has its own unique circumstances or considerations, and regardless of whether it’s manmade or natural, risks can be minimised or in many cases, eliminated.

How could the application of safe design practice changed this outcome?

Consultation and collaboration with specialists to consider Safe Design throughout all phases of the design, construction and usage stages of a structure are important to ensure we continually innovate and improve, while also preventing and minimising injury through the design of safe structures and workplaces.

Emergency workers went to alarming lengths in this instance. And, we don’t have the complete view of the design, development and construction lifecycle for this project. But, do you think the outcome could have been any different in this situation?

Read more: https://lnkd.in/ebsWsRK 

 

Find out more about safe design practice

For more information about the principles of safe design and how safe design can be integrated into your future building design projects, contact us.

 

Precast concrete panel collapse

Structure and Process Design. Why are we getting it wrong?

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Construction incident causes death of two workers

What can we learn about structure design and the safe design process?

In October 2016, two workers employed in a $25 million development at Eagle Farm Racetrack in Brisbane, were killed when an 11 tonne concrete panel fell over and crushed them.

The large concrete drainage structure, consisting of four individual concrete panels (the walls), were progressively being lifted into place with a crane when two panels fell forward, one after the other.

The men narrowly avoided the first panel falling, however they were subsequently crushed by the second panel, causing their deaths.

Structure Design and the Safe Design process. Why are we getting it wrong?

When we see incidents like this one in Queensland which resulted in the two workers being crushed to death, it makes you wonder. How, in this day and age, does this happen?

We can not help thinking about all the possible design solutions that could have been adopted to prevent the two workers being exposed to the precast panels collapsing. It raises the question – did the designer have time to think about this, to consult, to plan and to talk to people with experience? What control measures could have been put in place to mitigate the construction risks?

WorkCover Qld* proposes the following control measures

WorkCover Qld proposed the following in their Safety Alert – Concrete Wall Panels:

“Control measures to prevent such collapse are to be applied before workers enter the pit.

Concrete wall panels should not be erected unless the following has been carried out:    

  • Each wall panel is provided with a minimum of two braces that are attached to the face [1of the panel and anchored to the ground with engineer designed footings.
  • Each panel is provided with an effective way to restrain the bottom of the panel when it is installed.
  • The panel restraint system, including brace footing details, is to be designed and certified by a suitably qualified professional engineer (in Queensland the engineer is required to be a Registered Professional Engineer of Queensland). The engineering certification must be on site.
  • Workers involved hold the appropriate high risk work licence:
  • A comprehensive safe work procedure (i.e. safe work method statement) is to be developed by the panel erector and verified by the principal contractor. Responsibilities of every worker (including the rigger) should be specified in the procedure. 
  • The procedure should include detailed diagrams that include the relative position of the mobile crane to the panels, the sequence of panel installation, and details on the panel restraint system. 
  • Prior to work commencing a pre-start meeting should take place to ensure all workers are familiar with the procedure.”

Safety in Design

This very sad, but serious incident is what Safety in Design (SiD) is all about. Eliminating hazards through good design. We all need to learn from these tragic events.

Contact us for more information.

 

This is an updated article from a previous Safety Alert notice from October 2016.

*Source: Injury Prevention Safety – Alerts at worksafe.qld.gov.au, first published 12 October 2016, updated 17 July 2018.

Case Study Prince Alfred Park Pool Sydney

Case Study: Prince Alfred Park Pool, Sydney

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Case Study: Prince Alfred Park Pool, Sydney

“The overriding principle was to premiate landscape over built form, based on a conviction that in these inner urban areas, green space is sacred.”

Source: 2014 Sydney Design Awards submission.

Based on this concept, a main feature of the design of the Prince Alfred Park Pool complex in Sydney was the landscaped grass roof that sits over the pool building facilities. The safe design of this roof required consideration of safety in relation to potential falls as it could be accessed from street level and also consideration of how this roof would be safely maintained.

Designing for safety without compromising design intent

Potential unauthorised access to the roof was addressed by a 2.4 metre high fence that is set back from the edge so it doesn’t impact on the intended visual effect. This fence is angled back and has no footholds, preventing climbing. The architect incorporated security lighting, CCTV and an alarm back to City of Sydney Security. The landscape designer reduced the need for maintenance by proposing an irrigation system and the specification of native grasses so that no mowing was required. An integrated cable access system was incorporated into the design to enable maintenance of the plants for weeding. In addition, a wide coping provides edge delineation and is illuminated by lighting from the pool deck below.

To ensure safe maintenance of the structure and associated plant, the designer consulted extensively with the plant designers and design engineers. The project incorporated a concrete plant hatch above the plant rooms, fitted with lifting points hidden in the grass mound roof, should the need arise for future replacement of plant with a designated crane operation area. Large skylights and tri-generation chimneys, projecting above the grass mound, are not only safe and functional, but are also a great sculptural element – fitting in with the original design intentions of the architect.

Pivoting outdoor light poles allow maintenance access without the need to work at height.

Designated access ways for emergency access were engineered to take the loads of vehicles that may need to access the site. Research and testing was undertaken to select durable materials and surfaces, and also to ensure that surfaces met slip resistance ratings for its proposed use.

The importance of Consultation and Collaboration

Consultation involved a number of safe design workshops led by the safe design consultant with key stakeholders including the client, architect, maintenance personnel and the operator. Outcomes were documented during each stage and the risk register was updated throughout the design process, and also at the end of construction.

An operations and maintenance plan was created at the completion of the project incorporating residual risks and safety controls so that people further along in the lifecycle of the complex could be made aware of safety issues.

Project Contributors

Architect: Neeson Murcutt

Client: City of Sydney

Safe Design Consultant: Safe Design Australia

 

To find out more about this particular project, or how the Safe Design Australia team can assist you on your next project, contact us.

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