Aufsätze in referierten Fachzeitschriften
- Marzban, N.; Libra, J.; Rotter, V.; Ro, K.; Moloeznik Paniagua, D.; Filonenko, S. (2023): Changes in Selected Organic and Inorganic Compounds in the Hydrothermal Carbonization Process Liquid While in Storage. ACS Omega. (4): p. 4234-4243. Online: https://doi.org/10.1021/acsomega.2c07419 1.0
- Tkachenko, V.; Marzban, N.; Vogl, S.; Filonenko, S.; Antonietti, M. (2023): Chemical Insight into the Base-Tuned Hydrothermal Treatment of Side Stream Biomasses. Sustainable Energy & Fuels. : p. 769-777. Online: https://doi.org/10.1039/D2SE01513G 1.0
- Küchler, J.; ; Reiß, E.; Nuß, L.; Conrady, M.; Ramm, P.; Schimpf, U.; Reichl, U.; Szewzyk, U.; Benndorf, D. (2023): Degradation Kinetics of Lignocellulolytic Enzymes in a Biogas Reactor Using Quantitative Mass Spectrometry. Fermentation. (1): p. 67. Online: https://doi.org/10.3390/fermentation9010067 1.0
- Hahn, J.; Westerman, P.; Gerowitt, B.; Heiermann, M. (2023): Mesophilic, anaerobic digestion in a full-scale, commercial biogas reactor kills seeds more efficiently than lab-scale systems. Fermentation. (5): p. 481. Online: https://doi.org/10.3390/fermentation9050481 1.0
- Heinrich, T.; Park, H.; Orozco, R.; Ding, Z.; Álvarez-López, V.; Mosquera-Losada, M.; Steinbeis, L.; Hoffmann, T. (2023): Biochar production from late-harvest grass - Challenges and potential for farm-scale implementation. Sustainable Production and Consumption. (May): p. 256-267. Online: https://doi.org/10.1016/j.spc.2023.02.019 1.0
- Orisaleye, J.; Jekayinfa, S.; Pecenka, R.; Ogundare, A.; Akinseloyin, M.; Fadipe, O. (2022): Investigation of the Effects of Torrefaction Temperature and Residence Time on the Fuel Quality of Corncobs in a Fixed-Bed Reactor. Energies. (14): p. 5284. Online: https://doi.org/10.3390/en15145284 1.0
- Marzban, N.; Libra, J.; Hosseini, S.; Fischer, M.; Rotter, V. (2022): Experimental evaluation and application of genetic programming to develop predictive correlations for hydrochar higher heating value and yield to optimize the energy content. Journal of Environmental Chemical Engineering. (6): p. 108880. Online: https://doi.org/10.1016/j.jece.2022.108880 1.0
- Teribele, T.; Costa, M.; Da Silva, C.; Pereira, L.; Bernar, L.; De Castro, D.; Assunção, F.; Santos, M.; Brandão, I.; Fonseca, C.; Schultze, M.; Hoffmann, T.; Bremer, S.; Machado, N. (2022): Effect of Process Conditions on Hydro-Char Characteristics and Chemical Composition of Aqueous and Gaseous Products by Hydrothermal Processing of Corn Stover with Hot Compressed H2O: Structural Evolution of Hydro-Char and Kinetics of Corn Stover Decomposition. Preprints. : p. 2022110402. Online: https://doi.org/10.20944/preprints202211.0402.v1 1.0
- Plöchl, M.; Schultze, M. (2022): Richtig (Pflanzen)kohle machen. BioTOPP. (4): p. 22-24. 1.0
- Kern, J.; Libra, J.; Ammon, C.; Neubauer, Y.; Teixeira, W. (2022): Short-term and long-term effects of natural and artificial carbonaceous substrates on greenhouse gas fluxes. Food and Bioproducts Processing. : p. 1-14. Online: https://www.techscience.com/jrm/online/detail/18378 1.0
Beiträge zu Sammelwerken
Vorträge und Poster
- Hoffmann, T. (2023): Hydrothermal humification of biomass, an accelerated way to save the trees. 1.0
- Schultze, M. (2022): Laborerkenntnisse zur Biokohle und ihre Bedeutung für landwirtschaftliche Flächen. 1.0
- Salamat, R.; Váquiro-Herrera, H.; Sturm, B.; Mellmann, J. (2022): Estimation of the effective diffusion coefficient of digestate during drying using the inverse method. 1.0
- Dang, H.; Libra, J.; Dornack, C.; Fischer, M. (2022): Recycling resources from coffee by-products via hydrothermal conversion for sustainable coffee farming in Vietnam. 1.0
- Dang, H. (2022): Machbarkeit der Verwendung von Hydrokohle aus Nebenprodukten der Kaffeeverarbeitung als Ersatz für fossile Brennstoffe bei der Trocknung von Kaffeebohnen zur Verbesserung der Nachhaltigkeit der Kaffeeproduktion. 1.0
- Moloeznik Paniagua, D. (2022): HTC-Kohle aus Makroalgen aus der Nordsee als mögliche Düngemittel und einen Weg zur Kohlenstoffsequestrierung. 1.0
- Marzban, N.; Hoffmann, T. (2022): A comparative study of hydrothermal carbonization and humification of digested cow manure. 1.0
- Herrmann, C.; Ravi, B.; Freydank, C. (2022): LaRA - Landwirtschaftliche Rest- und Abfallstoffnutzung: Prozesstechnische Untersuchungen. 1.0
- Herrmann, C.; Ravi, B.; Freydank, C. (2022): Landwirtschaftliche Rest- und Abfallstoffnutzung: Prozesstechnische Untersuchungen. 1.0
- Conrady, M.; Huth, M.; Terboven, C.; Tölle, R.; Herrmann, C.; Klocke, M.; Ramm, P. (2022): Application of a novel high resolution volumetric gas measurement system for the determination of the biochemical methane potential. 1.0