Coupled Biogas and Fiber Production from Agricultural Residues and Energy Crops with Steam Explosion Treatment
-
Published:2023-06-01
Issue:2
Volume:2
Page:278-291
-
ISSN:2813-0464
-
Container-title:Applied Biosciences
-
language:en
-
Short-container-title:Applied Biosciences
Author:
Hülsemann Benedikt1ORCID, Baumgart Marian1, Lenz Leonhard1ORCID, Elviliana 2ORCID, Föllmer Marie3, Sailer Gregor1ORCID, Dinkler Konstantin1, Oechsner Hans1ORCID
Affiliation:
1. State Institute of Agricultural Engineering and Bioenergy, University of Hohenheim, Garbenstraße 9, 70599 Stuttgart, Germany 2. Department of Agro-Industrial Technology, Faculty of Agricultural Technology, Universitas Brawijaya, Malang 65145, Indonesia 3. Hochschule der Medien, University of Applied Sciences, Nobelstraße 10, 70569 Stuttgart, Germany
Abstract
The global demand for packaging materials and energy is constantly increasing, requiring the exploration of new concepts. In this work, we presented a bioeconomic concept that uses steam explosion and phase separation to simultaneously generate fibers for the packaging industry and biogas substrate for the energy sector. The concept focused on fiber-rich residues and fiber-rich ecological energy crops from agriculture. Feasibility of the concept in the laboratory using feedstocks, including Sylvatic silphia silage, Nettle silage, Miscanthus, Apple pomace, Alfalfa stalks, and Flax shives was confirmed. Our results showed that we were able to separate up to 26.2% of the methane potential while always extracting a smaller percentage of up to 17.3% of organic dry matter (ODM). Specific methane yields of 297–486 LCH4 kgODM−1 in the liquid and 100–286 LCH4 kgODM−1 in the solid phase were obtained. The solid phases had high water absorption capacities of 216–504% due to the steam explosion, while the particle size was not significantly affected. The concept showed high potential, especially for undried feedstock.
Funder
Ministry of Rural Affairs, Food and Consumer Protection Baden-Wuerttemberg, Germany. Project “MLRFaser”
Reference63 articles.
1. UNDP (2023, February 21). Sustainable Development Goals. Available online: https://www.undp.org/sustainable-development-goals. 2. Structure and environmental impact of global energy consumption;Bilgen;Renew. Sustain. Energy Rev.,2014 3. BMEL (2023, February 21). Biogas. Available online: https://www.bmel.de/DE/themen/landwirtschaft/bioeokonomie-nachwachsende-rohstoffe/biogas.html. 4. Theuerl, S., Herrmann, C., Heiermann, M., Grundmann, P., Landwehr, N., Kreidenweis, U., and Prochnow, A. (2019). The Future Agricultural Biogas Plant in Germany: A Vision. Energies, 12. 5. Pohl, M., Barchmann, T., Liebetrau, J., Hülsemann, B., Oechsner, H., Zhou, L., Nägele, H.-J., Mächtig, T., Moschner, C., and Kliche, R. (2021). Biogas-Messprogramm III, Fachagentur Nachwachsende Rohstoffe.
|
|