The world’s first Miscanthus bale house

The world’s first Miscanthus bale house

In an idyllic location in West Wales, a house is being built. However, this is no ordinary house. In what is believed to be a world first, its walls are being built out of Miscanthus bales.

 

A collaborative project by the University of Aberystwyth, the Centre for Alternative Technology (CAT) and commercial partners Terravesta is exploring the potential to use Miscanthus as a building material as a way of helping decarbonise the construction industry.

 

A perennial carbon-negative renewable energy crop that is grown on around 8,000 hectares of low-grade marginal UK land, Miscanthus has been identified as having outstanding building credentials, with excellent insulation value. Following successful test building last year, the partners are now working on building a Miscanthus bale house that will still be standing in 100 years.

 

The Miscanthus bales are being used as in-fill for a timber frame, in the same way as wheat straw bales are often used, with the surface of the bales providing a ready key for internal clay plaster and external render.

 

Bee Rowan, straw bale building course leader at CAT, said: “The most ground-breaking thing about Miscanthus is that it could decarbonise the construction industry at scale.In conventional building, the carbon footprint is heavy and one house can emit 50 tonnes of CO2. In contrast, approximately 40% of Miscanthus biomass is made up of carbon directly captured from the atmosphere in photosynthesis. Locking this carbon up in building materials actually reduces atmospheric levels of CO2.”

 

This build uses ‘two-string bales’ supplied by Terravesta, experts in the Miscanthus supply chain. These are just over a metre long, 45cm wide and 35cm high, making them a convenient building block size that can be handled easily. There is also scope to use larger Heston sized bales – which are the typical size of most commercial Miscanthus bales – in larger buildings and warehouse spaces.

 

World leading plant breeding scientists at the Beacon Project at Aberystwyth University’s IBERS (Institute of Biological, Environmental and Rural Sciences) are developing seed-based Miscanthus hybrids that work well in straw bale building.

 

Dr Judith Thornton of the Beacon Project said: “Miscanthus is currently grown from rhizome – it’s planted once and harvested every spring for 20 plus years. Our scientists have taken different types of Miscanthus and crossed them to develop hybrids that can be grown from seed to suit particular markets.

 

“These have typically been the biomass and bioplastics markets, but by matching up our understanding of the plant properties with the requirements of the building industry, we can potentially breed for the house building market.
“We’ve been using plants as building materials for thousands of years. What is different now is that we understand enough about the physical and chemical properties of plants and have more processing techniques available to us. This opens up a lot of opportunities – whilst building directly with bales is ideal for self build housing, in the future we could also be using pre-fabricated panels of Miscanthus to build houses, and we could produce loft insulation or fibreboards,” adds Judith.

 

The bales are being incorporated into the Little Welsh House Project being run as a series of short courses by the Centre for Alternative Technology, helping self-builders get to grips with environmentally sound building materials and methods.

 


Centre for Alternative Technology (CAT) is an environmental education charity based in Mid Wales, CAT specialises in practical solutions for sustainable living, including green building, renewable energy and sustainable food production and land-use. CAT offers a visitor centre, short courses and postgraduate degrees, works with schools on education for sustainability and researches ways of getting to net zero greenhouse gas emissions to help address the challenge of climate change.

 

Aberystwyth University’s IBERS (Institute of Biological, Environmental and Rural Sciences) is an internationally recognised research and teaching centre providing a unique base for research in response to global challenges such as food security, bioenergy and sustainability, and the impacts of climate change.

 

Terravesta is the leading Miscanthus supply chain specialist, producing sustainable energy from marginal land. Miscanthus is a sustainable renewable energy crop that thrives on unproductive land, meaning it doesn’t compete with vital food production. Terravesta delivers a complete Miscanthus supply chain solution for its producers, to service several sustainable end markets, including heat and power generation from biomass, domestic fuel and animal bedding.

Photo courtesy of CAT/Paul Williams

 

 

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