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Wenig Luft bringt viel Biogas. Mikroaerobe Vorbehandlung zur Steigerung der Methanausbeute bei der Vergärung
Baier, U., Burg, V., Krautwald, J., Rüsch, F., Treichler, A., & Warthmann, R. (2020). Wenig Luft bringt viel Biogas. Mikroaerobe Vorbehandlung zur Steigerung der Methanausbeute bei der Vergärung. Aqua & Gas, 100(12), 34-39.
Umsetzungsbeispiel Energiewende Aargau. Erneuerbare Energien in der Gesamtschau und die Rollen der einzelnen Energieträger
Ballmer, I., Thees, O., Lemm, R., & Burg, V. (2014). Umsetzungsbeispiel Energiewende Aargau. Erneuerbare Energien in der Gesamtschau und die Rollen der einzelnen Energieträger. In Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL (Ed.), WSL Berichte: Vol. 21. Landschaft und Energiewende. Der Einfluss erneuerbarer Energien auf die Landschaft (pp. 51-68). Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL.
Erneuerbare Energien Aargau. Sind die Ziele der nationalen Energiestrategie im Aargau erreichbar? Welche Rolle spielen dabei die einzelnen Erneuerbaren und insbesondere die Biomasse?
Ballmer, I., Thees, O., Lemm, R., Burg, V., & Erni, M. (2015). Erneuerbare Energien Aargau. Sind die Ziele der nationalen Energiestrategie im Aargau erreichbar? Welche Rolle spielen dabei die einzelnen Erneuerbaren und insbesondere die Biomasse? WSL Berichte: Vol. 29. Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL.
Potentials, costs and environmental assessment of electricity generation technologies. Final report in English with summaries in German and French
Bauer, C., Hirschberg, S., Bäuerle, Y., Biollaz, S., Calbry-Muzyka, A., Cox, B., … Tran, M. Q. (2017). Potentials, costs and environmental assessment of electricity generation technologies. Final report in English with summaries in German and French. Paul Scherrer Institut.
How much land does bioenergy require? An assessment for land‐scarce Switzerland
Bowman, G., Burg, V., Erni, M., Lemm, R., Thees, O., & Björnsen Gurung, A. (2021). How much land does bioenergy require? An assessment for land‐scarce Switzerland. GCB Bioenergy, 13(9), 1466-1480. https://doi.org/10.1111/gcbb.12869
Linking solar and biomass resources to generate renewable energy: can we find local complementarities in the agricultural setting?
Bowman, G., Huber, T., & Burg, V. (2023). Linking solar and biomass resources to generate renewable energy: can we find local complementarities in the agricultural setting? Energies, 16(3), 1486 (17 pp.). https://doi.org/10.3390/en16031486
Material and energy flows of industrial biogas plants in Switzerland in the context of the circular economy
Bowman, G., Ayed, L., & Burg, V. (2022). Material and energy flows of industrial biogas plants in Switzerland in the context of the circular economy. Bioresource Technology Reports, 20, 101273 (9 pp.). https://doi.org/10.1016/j.biteb.2022.101273
Electricity production from Swiss non-woody biomass: assessment of resources, technologies, and costs
Burg, V., Calbry-Muzyka, A. S., Bowman, G., Biollaz, S. M. A., & Thees, O. (2017). Electricity production from Swiss non-woody biomass: assessment of resources, technologies, and costs. Presented at the 4th biomass for Swiss energy future conference. Brugg, Switzerland.
Biomass potentials for energetic use. Assessment of Swiss biomass resources, while distinguishing between different potentials
Burg, V., Erni, M., Lemm, R., Bowman, G., & Thees, O. (2016). Biomass potentials for energetic use. Assessment of Swiss biomass resources, while distinguishing between different potentials. Presented at the 3rd biomass for Swiss energy future conference 2016. Brugg, Switzerland.
Symbiosis opportunities between food and energy system: manure based biogas as heat source for greenhouses
Burg, V., Golzar, F., Bowman, G., Hellweg, S., & Roshandel, R. (2019). Symbiosis opportunities between food and energy system: manure based biogas as heat source for greenhouses. Presented at the World food system center research symposium (WFSC 2019). Zurich, Switzerland.
Bioenergy hotspots combined with socio-economic analysis: an important step to support the future energy transition
Burg, V., Bowman, G., Mohr, L., Trutnevyte, E., & Thees, O. (2019). Bioenergy hotspots combined with socio-economic analysis: an important step to support the future energy transition. Presented at the SCCER BIOSWEET annual conference. Lucerne, Switzerland.
Production de biogaz à partir d’engrais de ferme en Suisse. Potentiel énergétique, développement technologique et mobilisation des ressources. Livre blanc
Burg, V., Bowman, G., Thees, O., Baier, U., Biollaz, S., Damartzis, T., … Kröcher, O. (2021). Production de biogaz à partir d’engrais de ferme en Suisse. Potentiel énergétique, développement technologique et mobilisation des ressources. Livre blanc. Institut fédéral de recherches sur la forêt, la neige et le paysage WSL. https://doi.org/10.16904/envidat.257
optimierBAR: Mist und wieso er zur Sprache kommen muss. Hofdünger-Vergärung in der Schweiz: Energetisches Potenzial, reduzierte Treibhausgasemissionen und Grundeinstellung der Landwirte
Burg, V., Bowman, G., & Thees, O. (2019). optimierBAR: Mist und wieso er zur Sprache kommen muss. Hofdünger-Vergärung in der Schweiz: Energetisches Potenzial, reduzierte Treibhausgasemissionen und Grundeinstellung der Landwirte. In A. Björnsen Gurung (Ed.), WSL Berichte: Vol. 84. Schweiz erneuerbar! (pp. 23-30). https://doi.org/10.55419/wsl:21925
Biogas from animal manure in Switzerland. Energy potential, technology development and resource mobilization. White paper
Burg, V., Bowman, G., Thees, O., Baier, U., Biollaz, S., Damartzis, T., … Kröcher, O. (2021). Biogas from animal manure in Switzerland. Energy potential, technology development and resource mobilization. White paper. Swiss Federal Institute for Forest, Snow and Landscape Research WSL. https://doi.org/10.16904/envidat.255
Long-term wet bioenergy resources in Switzerland: drivers and projections until 2050
Burg, V., Bowman, G., Hellweg, S., & Thees, O. (2019). Long-term wet bioenergy resources in Switzerland: drivers and projections until 2050. Energies, 12(18), 3585 (21 pp.). https://doi.org/10.3390/en12183585
Valorization of an untapped resource: energy and greenhouse gas emissions benefits of converting manure to biogas through anaerobic digestion
Burg, V., Bowman, G., Haubensak, M., Baier, U., & Thees, O. (2018). Valorization of an untapped resource: energy and greenhouse gas emissions benefits of converting manure to biogas through anaerobic digestion. Resources, Conservation and Recycling, 136, 53-62. https://doi.org/10.1016/j.resconrec.2018.04.004
Biogas aus Hofdünger in der Schweiz. Energiepotenzial, Technologieentwicklung und Ressourcenmobilisierung. White paper
Burg, V., Bowman, G., Thees, O., Baier, U., Biollaz, S., Damartzis, T., … Kröcher, O. (2021). Biogas aus Hofdünger in der Schweiz. Energiepotenzial, Technologieentwicklung und Ressourcenmobilisierung. White paper. Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL. https://doi.org/10.16904/envidat.256
Farmer's willingness to adopt private and collective biogas facilities: an agent-based modeling approach
Burg, V., Troitzsch, K. G., Akyol, D., Baier, U., Hellweg, S., & Thees, O. (2021). Farmer's willingness to adopt private and collective biogas facilities: an agent-based modeling approach. Resources, Conservation and Recycling, 167, 105400 (12 pp.). https://doi.org/10.1016/j.resconrec.2021.105400
Symbiosis opportunities between food and energy system: the potential of manure‐based biogas as heating source for greenhouse production
Burg, V., Golzar, F., Bowman, G., Hellweg, S., & Roshandel, R. (2021). Symbiosis opportunities between food and energy system: the potential of manure‐based biogas as heating source for greenhouse production. Journal of Industrial Ecology, 25(3), 648-662. https://doi.org/10.1111/jiec.13078
Agricultural biogas plants as a hub to foster circular economy and bioenergy: an assessment using substance and energy flow analysis
Burg, V., Rolli, C., Schnorf, V., Scharfy, D., Anspach, V., & Bowman, G. (2023). Agricultural biogas plants as a hub to foster circular economy and bioenergy: an assessment using substance and energy flow analysis. Resources, Conservation and Recycling, 190, 106770 (9 pp.). https://doi.org/10.1016/j.resconrec.2022.106770