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This low-energy housing solution could revolutionise building standards in Australia

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The Passivhaus concept is an approach to designing sustainable structures by using engineering to work with, not against, the natural environment.

The Canadian city of Regina was built on treeless prairie at a latitude of 50 degrees north.

Temperatures in January fall to an average of minus 20°C, but summer brings its own challenges: the highest July temperature recorded in the city is 43.9°C.

It is a harsh environment for human habitation at the best of times, but during the 1970s oil crisis that saw energy prices skyrocket around the world, Canadian mechanical engineer Harold Orr sought to develop building techniques that could work with the environment to minimise the cost of heating and cooling.

Orr led the construction of what would become the Saskatchewan Conservation House: a Regina home that was designed to be extraordinarily airtight, with highly efficient insulation and controlled airflow.

Compared to the average 1970s home, the building used 85 per cent less energy.

As oil prices returned to normal, Orr’s approaches began to fall out of favour, but the idea of super-efficient building techniques didn’t disappear. Sweden and Denmark imposed low-energy building standards in the 1980s, and in 1988, Swedish engineer Bo Adamson and German physicist Wolfgang Feist launched a concept they called Passivhaus.

They defined this as a building with an extremely low energy demand, and so would require no active heating.

By 1990, they had constructed a pilot Passivhaus in Darmstadt, Germany, and Feist went on to found the Passive House Institute in 1996.

Today, more than 120,000 buildings around the world are certified as meeting the exacting Passivhaus standards. Just 25 of these, however, are in Australia.

“Leaky” buildings

“We’re quite used to designing and building leaky buildings in Australia,” mechanical engineer David Barker told create.

“In summer, a lot of hot air makes its way through cracks and into the inside of a building, and in winter, the opposite happens.”

David Barker

Barker is Managing Principal and Head of Sustainability at Introba Australia, an engineering and consulting firm that helped develop The Passivhaus Playbook, which provides guidance on expanding the number of buildings that meet Passivhaus standards in Australia.

The strength of the Passivhaus concept, Barker explained, is that it requires engineers and architects to meet a series of benchmarks rather than merely seeking to implement a few sustainable design principles.

“The Passivhaus standard is a little different to other high performance or sustainable building standards in that it is very much a performance standard,” he said.

For instance, the envelope of the building is required to be extremely airtight, preventing unwanted heat from leaking out or seeping in.

The Passivhaus principles. Image credit: supplied

“And that needs to be tested in practice when you’re building the building,” Barker said. “It is a difficult standard to achieve because it is so ambitious, and because it’s got those controls in place that mean, if you want to demonstrate to the market or to your audience that you’ve got a Passivhaus, you need to really achieve those targets and thresholds.”

One of the technologies that facilitates this process is named mechanical ventilation heat recovery, and it permits a Passivhaus building to bring in fresh air without disrupting the temperature balance.

Passivhaus advocates are clear that the system doesn’t require windows to always be shut tight; it’s just possible to properly ventilate a space without having them open.

“The heat recovery is important,” Barker said. “That keeps the energy demand low, because what we can do on a cold day is heat up that incoming fresh air using the heat that’s within our building, so it’s not super cold.”

Simpler, healthier

Better insulation and less air leakage mean lower energy bills but there are also health benefits, Barker said.

“For a family, for example, that might be living in a Passivhaus, you see over and over reports of much better indoor air quality, and removal of issues like mould and damp in buildings,” he said. “Those have tremendously costly impacts on family health.”

But broader take-up of Passivhaus approaches could also see wider community and economic benefits.

“For a developer that might decide to use a Passivhaus approach, there is potential there to reduce the capacity of the building services equipment that they’re installing into that building,” Barker said.

“We’ve had some conversations on projects about potentially removing entirely the need for a central heating system in a building of scale by being able to design the building fabric in such a way that it’s very high performing.

“That provides an upfront cost-saving potential for the developer.”

A subtropical approach

While the Passivhaus concept was developed in the chillier parts of the Northern Hemisphere, Barker said that its principles are applicable to any climate, including Australia’s.

“There have been some studies by some folks in Australia, looking at subtropical locations in Australia – further up north – and what a Passivhaus looks like there,” he explained. “It’s still possible and the fundamentals remain the same and the outcomes remain the same in terms of wellbeing and affordability.”

That should not be seen as unusual, Barker said.

“If you’re building any building in Far North Queensland versus building a building in Tasmania, you don’t build the same building,” he explained.

The challenge, then, is to help expand the purview of the Passivhaus standard in Australia beyond the domain of enthusiasts overseeing the construction of single-family dwellings.

“In that space, it can be [20 to 30 per cent] more expensive than building a traditional home in Australia,” Barker said.

That’s where he hopes The Passivhaus Playbook can make a difference. A resource created by Introba with Development Victoria and the Australian Passivhaus Association, the playbook is designed to facilitate greater embrace of the standard across the industry.

This integrated and holistic approach could also drastically reduce the cost, Barker said.

“The idea with The Passivhaus Playbook was to investigate what it would take to deliver a Passivehaus at scale that was cost effective and technically feasible,” he said.

“It’s still very much about the technical capabilities and skills that are required to deliver a Passivhaus, but what we found was that it was really important to get right up front of any process where there may be an investor or a developer thinking about the business case or the feasibility of any given project.”

Often, Barker explained, developers would try to implement Passivhaus principles too late in a project, rather than integrating them holistically from the start.

“The costs of changing your ambition halfway through the piece are much higher than setting your ambition there and getting the right team around you right from the start,” he said.

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