Lignin utilization in mycelium-based biocomposites from recycled wood

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-PF-EFID: 101105443
EC Contribution
€1,994
Consortium Size
1 orgs
Start Year
2023
Summary

We have reached a point where we have to use recycled wood, which is mostly contaminated, to a greater extent because there is a shortage of raw wood in the EU. At the same time, in pulp mills, we produce large amounts of lignin, however, use it mainly for energy purposes.LignoMBB is bringing technology for the production of mycelium-based biocomposites (MBB), during which recycled wood is decontaminated. Secondly, LignoMBB is using lignin, which is currently mainly used for energy and is understood as a by- or waste product, in order to achieve better mycelial growth on the developed substrate. I am the first to suggest enriching the substrate for the production of MBB with lignin, expecting that the addition of lignin will result in better mechanical properties of the MBB. LignoMBB develops materials only from recycled wood and lignin, i.e. it does not use agricultural residues, as is currently common practice, and does not endanger food security. At the same time, it finds application for large volumes of old contaminated wood, which is currently entering circulation. My first objective is to develop a technology for the material use of lignin and a substitution technology of agricultural residues in MBBs with lignin and recycled wood. Then, I will answer the questions: To which extent additional lignin in MBB is consumed by fungi? What are the limits of substrate enrichment by lignin? In accordance with the second objective, I will develop a novel MBB to be used in structural applications. At different stages of the MBB cycle, I will measure the VOC emissions because I am hypothesizing that the production process of MBB can act as bioremediation and decreases VOC emissions from materials.LignoMBB will be implemented at BOKU in Bio-Resources & Technologies Tulln group, where the emphasis is placed on cradle-to-cradle design and brings to this group methods of recycled wood decontamination and production of fully degradable MBB.

Consortium (1)

Project Results (6)

Source: CORDIS, the EU research results database.

Publications (3)
Artificial Neural Network Prediction of Mechanical Properties in Mycelium-Based Biocomposites
Polymers· 2025DOI
Štěpán Hýsek, Miroslav Jozífek, Benjamín Petržela, Miroslav Němec
Macromolecular Composition of Totora ( <i>Schoenoplectus californicus</i> . C.A. Mey, Sojak) Stem and Its Correlation with Stem Mechanical Properties
Journal of Natural Fibers· 2024DOI
Juan Fernando Hidalgo-Cordero, Miroslav Němec, Patricio Hidalgo Castro, Kateřina Hájková, Alfredo Ordóñez Castro, Štěpán Hýsek
Mycelium-based biocomposites from recycled wood: influence of fungal species on properties of biocomposites
· 2024DOI
Hýsek, Štěpán; Daňková, Markéta; Jozífek, Miroslav; Němec, Miroslav; Wimmer, Rupert
Deliverables (2)
Other Results (1)
Periodic Reporting for period 1 - LignoMBB (Lignin utilization in mycelium-based biocomposites from recycled wood)