A pile of construction and demolition waste
<91日韩AV class="hero-details__heading hero-details__heading--main" > A study has found there is potential for construction, demolition and excavation waste to be repurposed

12 October 2023

5 min read

Highly processed building waste, which usually ends up in landfill, can be used to grow tomatoes, a study from the 91日韩AV has found. 

Construction, demolition and excavation waste is typically processed through a large cylinder drum known as a 鈥榯rommel鈥. The trommel separates the waste material by size. Anything that鈥檚 too small for effective recycling is the byproduct left and is known as 鈥榯rommel fines鈥. 

Muhammad Ali, Associate Professor in Materials and Environmental Innovation, conducted a 70-day tomato growth trial, which found that mixing compost with 20 per cent trommel fines provided sufficient nutrients for robust plant and root growth.

Dr Ali, from the University鈥檚 School of Civil Engineering and Surveying, said: 鈥淎 recent government report found the UK annually produced around 222 million tonnes of waste and 62 per cent of this was construction and demolition waste. 

鈥淭rommel fines are less than 10mm in size and consist of small particles of inert and organic materials including soil, crushed rock or concrete, glass, metals, plastics, wood and insulation materials. 

鈥淐urrently, there are no markets for this material and it is destined for landfill. But what we鈥檝e found is that there is potential for trommel fines to be repurposed to benefit various industries, such as horticulture and agriculture.鈥

A comparison of five tomato plants at harvest

A comparison of tomato plants at harvest. Trommel fines (TF) and compost (C) mixes were used for the plant growth trial.

Dr Ali and colleagues also tested whether trommel fines could be used in the production of soil blocks to manufacture a variety of earth-based construction materials.

The results were promising: the study found that mixing 50 per cent soil with 50 per cent waste to make a compressed earth block only marginally affected its compressive and tensile strengths, compared to soil alone.

Dr Ali added: 鈥淭his shows that trommel fines could be integrated into soil compositions for constructions, landscaping, and other applications without compromising structural integrity.

鈥淎lthough further research would be needed to improve durability and mechanical properties of compressed earth blocks using trommel fines, one key conclusion drawn from this study is that they have the characteristics of natural materials such as soil and aggregate, and can therefore be treated like them.

This research not only showcases the potential for trommel fines to divert waste from landfill, promote the circular economy and its environmental impact but also highlights the remarkable versatility of this often-overlooked byproduct.鈥

The findings open doors to more sustainable construction practices, reduced reliance on traditional resources, and innovative horticultural solutions.

The paper is published in

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