Pubdate: Fri, 17 Aug 2007
Source: Kingston Whig-Standard (CN ON)
Copyright: 2007 The Kingston Whig-Standard
Contact:  http://www.kingstonwhigstandard.com/
Details: http://www.mapinc.org/media/224
Author: Jennifer Pritchett

BUILDING STRAW HOUSES

 From Flax To Hemp, Researchers Tout Merits Of Bio-Construction

Fuelled by a growing demand for environmentally friendly buildings, 
hemp, wheat, flax and other grains are now being touted as emerging 
raw materials in the construction industry.

The merits of these so-called "biofibres" and their applications in 
Canada, the United Kingdom and other parts of the world was the basis 
of an international symposium that wrapped up in Kingston yesterday.

Shelagh McDonald, executive director of the Eastern Lake Ontario 
Regional Innovation Network, which organized the event, said the 
symposium brought together the researchers and industry leaders who 
are using biofibres to foster new developments.

"I know there are going to be some collaborations that will spark as 
a result of bringing people together," she told the Whig-Standard.

The Eastern Lake Ontario Innovation Network, partially funded by the 
province, promotes the bioproduct, biomedical and bioenergy industries.

The symposium attracted about 100 participants from Canada, the 
United States, Africa and the United Kingdom.

Participants in the symposium toured a hemp experimental farm near 
Belleville on Wednesday.

Over the two-day conference, a handful of guest speakers tackled 
topics such as using biofibres in the construction industry and 
combusting the material to turn it into green energy.

Speaker Colin MacDougall, a professor of civil engineering at Queen's 
University, leads a group researching straw-bale homes. He spoke 
yesterday about the work the group is doing inside a Queen's 
laboratory to learn more about the strength of walls made from straw bales.

So far, he said, the results show that straw-bale walls are durable 
and strong if constructed properly. "The performance seems to be 
pretty good," he said.

The group's tests look into what type of fibre bale, including flax, 
hemp or wheat, works best. They're also looking at what types of 
plaster, including clay or cement, applied over top of the bale, are 
more durable. They're even looking at the placement of the bales - 
flat or on edge - to find out which design is more stable.

The Natural Sciences and Engineering Research Council of Canada and 
the Canada Mortgage and Housing Corporation are funding the Queen's 
research on straw-bale homes.

MacDougall told the symposium that even though there are only about 
100 straw-bale buildings across Ontario, the material is an 
excellent, low-cost and an environmentally friendly design choice.

The only problem is, in Ontario, there are no building codes 
pertaining to straw-bale homes. Anyone interested in building one has 
to obtain an expensive engineer's stamp to show the design is safe 
before they are able to obtain a building permit.

MacDougall said the more research done on straw-bale construction, 
the more likely it will become a more conventional building method. 
"We're really just scratching the surface," he said.

United Kingdom-based Mike Duckett spoke about his company's work with 
hemcrete, an environmentally friendly building material that combines 
hemp and lime. It's already used in various parts of Europe.

His presentation revealed the environmental and practical benefits of 
using the material, including the fact that it's sustainable, 
lightweight, a good insulator, airtight, easy to use, and fire and 
pest resistant. The material also absorbs carbon dioxide, one of the 
greenhouse gases.

Duckett said that each house constructed with hemcrete walls, roof 
and floors could reduce carbon dioxide emissions by 50 tonnes.

Hemcrete, which costs roughly the same as conventional building 
material, has been used to construct homes, office space, a warehouse 
and a theatre in Europe.

A building in England that has been touted as the most 
environmentally friendly warehouse in Europe doesn't require an 
air-conditioning system because the hemcrete material makes it 
possible to regulate the temperature inside at 14 C.

Hemcrete can be used to construct walls, floors and roofs in 
buildings that are made from steel, timber or concrete frames.

Duckett said that though it's not considered mainstream yet, he 
believes hemcrete has enormous potential to be used widely in the 
construction industry globally.

"What we know about this product to date is that it would work very 
well here in Canada," he said. "In the summer, it would eliminate the 
need for air conditioning."
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MAP posted-by: Beth Wehrman