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Life cycle assessment of mycelium-based composite materials

Rebekka Volk, Marius Schröter, Nazanin Saeidi, Simon Steffl, Alireza Javadian, Dirk E. Hebel, Frank Schultmann

2024Resources Conservation and Recycling57 citationsDOIOpen Access PDF

Abstract

Mycelium-based composites (MBCs) show promising acoustic and thermal insulation, fire safety, and mechanical strength properties and are suitable for multiple applications in the construction, packing or furniture industry. A life cycle assessment confirmed climate change and fossil energy demand benefits in a laboratory scale production modelled for Germany. MBC are associated with 0.3668 kg CO2e / kg MBC (EN 15804 + A2). The electricity required to run MBC production and hemp cultivation, if used as a substrate, contribute significantly to the environmental impact categories considered. Compared to conventional insulation materials, environmental advantages of MBC can be confirmed. Particularly, MBC has a better climate change impact than extruded polystyrene, quadcore sandwich panel, foam concrete and rockwool. However, since the end-of-life is not assessed, the wood-fiber and straw panels perform better regarding climate change. Moreover, MBC has lower fossil energy demand than all conventional insulation materials. Land-use and water demand are higher than for conventional materials.

Topics & Concepts

MyceliumComposite numberLife-cycle assessmentMaterials scienceEnvironmental scienceComposite materialBiologyBotanyEconomicsProduction (economics)MacroeconomicsPlant and Biological Electrophysiology StudiesLight effects on plants
Life cycle assessment of mycelium-based composite materials | Litcius