| Alternative feedstocks to promote bio-based and circular economy in industrial intensive sectors: The retrofeed project approach | Zapata S., Palacino B., Arzate J.A., Del Cerro M., González-Espinosa A., Jarauta-Córdoba C.
| Publication | Biobased Value chains | http://www.etaflorence.it/proceedings/?detail=18607 |
| Assessment of successes and lessons learned for biofuels deployment - Sustainable biomass supply chains for international markets | IEA Bioenergy Task 40 | Report | Biobased Value chains
| https://task40.ieabioenergy.com/wp-content/uploads/sites/29/2023/09/IEAB-Inter-Task-Report-Success-Stories-WP4_Task-40_Sep-2023.pdf
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| Carbon accounting in Bio-CCUS supply chains – identifying key issues for science and policy | IEA Bioenergy Task 40 | Report | Biobased Value chains | https://task40.ieabioenergy.com/wp-content/uploads/sites/6/2022/05/IEA-Bio-BECCUS-Carbon-accounting.-docx.pdf
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| Setting up and running sustainable supply of Woody biomass from agrarian pruning and plantation removal | D. García-Galindo et al. | Publication | Biobased Value chains
| http://www.etaflorence.it/proceedings/?detail=13013 |
| Viability and Sustainability Assessment of Bioenergy Value Chains on Underutilised Lands in the EU and Ukraine
| Khawaja, C.; Janssen, R.; Mergner, R.; Rutz, D.; Colangeli, M.; Traverso, L.; Morese, M.M.; Hirschmugl, M.; Sobe, C.; Calera, A.; Cifuentes, D.; Fabiani, S.; Pulighe, G.; Pirelli, T.; Bonati, G.; Tryboi, O.; Haidai, O.; Köhler, R.; Knoche, D.; Schlepphorst, R.; Gyuris, P.
| Publication | Biobased Value chains | https://doi.org/10.3390/en14061566 |
| Alternative thermochemical routes for aviation biofuels via alcohols synthesis: Process modeling, techno-economic assessment and comparison
| K. Atsonios, M.-A. Kougioumtzis, K.D. Panopoulos, E. Kakaras | Publication | Biofuels | https://doi.org/10.1016/j.apenergy.2014.10.056
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| Bioenergy Retrofitting in Europe's Industry - Biofit Results | Reumerman, P., Rutz, D., Janssen, R., Bacovsky, D., Hauschild, S., Saastamoinen, H., Karampinis, E., Davidis, B.
| Publication | Biofuels | http://www.etaflorence.it/proceedings/?detail=19247 |
| Biofuels in Emerging Markets; Potential for sustainable production and consumption
| IEA Bioenergy Task 39 | Report | Biofuels | https://task39.ieabioenergy.com/wp-content/uploads/sites/37/2023/03/Biofuels-in-Emerging-Markets.pdf
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| Current Status of Advanced Biofuels Demonstrations in Europe | ETIP Bioenergy Working Group 2 – Conversion Processes and ETIP-B-SABS2 project team | Report | Biofuels
| https://www.etipbioenergy.eu/images/ETIP-B-SABS2_WG2_Current_Status_of_Adv_Biofuels_Demonstrations_in_Europe_Mar2020_final.pdf
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| Database on facilities for the production of advanced liquid and gaseous biofuels for transport | IEA Bioenergy Task 39 | Dataset | Biofuels | https://demoplants.best-research.eu/
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| Integration of hydroprocessing modeling of bio-liquids into flowsheeting design tools for biofuels production | K. Atsonios, K. D. Panopoulos, N. Nikolopoulos, A. A. Lappas. E. Kakaras
| Publication | Biofuels | https://doi.org/10.1016/j.fuproc.2017.11.009 |
| Production Facilities
| ETIP Bioenergy | Dataset | Biofuels | https://www.etipbioenergy.eu/databases/production-facilities
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| Progress in Commercialization of Biojet /Sustainable Aviation Fuels (SAF): Technologies and policies | IEA Bioenergy Task 39 | Report | Biofuels | https://task39.ieabioenergy.com/wp-content/uploads/sites/37/2024/05/IEA-Bioenergy-Task-39-SAF-report.pdf
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| Update on drop-in biofuel and co- processing commercialization | IEA Bioenergy Task 39 | Report | Biofuels | https://task39.ieabioenergy.com/wp-content/uploads/sites/37/2024/07/IEA-Bioenergy-Task-39-drop-in-biofuels-and-co-processing-report-June-2024.pdf
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| Database Gasification of Biomass and Waste | IEA Bioenergy Task 33 | Dataset | Gasification | https://task33.ieabioenergy.com/database/
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| Emerging Gasification Technologies for Waste & Biomass | IEA Bioenergy Task 33 | Report | Gasification | https://task33.ieabioenergy.com/wp-content/uploads/sites/33/2022/07/Emerging-Gasification-Technologies_final-1.pdf
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| Fischer-Tropsch products from biomass-derived syngas and renewable hydrogen | Gruber, H., Groß, P., Rauch, R. et al. | Publication | Gasification | https://doi.org/10.1007/s00440-002-0236-0
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| Gasification applications in existing infrastructures for production of sustainable value-added products | IEA Bioenergy Task 33 | Report | Gasification | https://task33.ieabioenergy.com/wp-content/uploads/sites/33/2022/07/Gasification_integration_final.pdf
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| Gasification of Liquids derived from Direct Thermochemical Liquefaction | IEA Bioenergy Task 34 | Report | Gasification | https://task34.ieabioenergy.com/wp-content/uploads/sites/3/2023/12/DTL-Oil-Gasification.pdf
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| Influence of bed material coatings on the water-gas-shift reaction and steam reforming of toluene as tar model compound of biomass gasification | M. Kuba, F. Havlik, F. Kirnbauer, and H. Hofbauer
| Publication | Gasification | https://doi.org/10.1016/j.biombioe.2015.11.029 |
| Power to Fuels: Dynamic Modeling of a Slurry Bubble Column Reactor in Lab-Scale for Fischer Tropsch Synthesis under Variable Load of Synthesis Gas
| Seyednejadian, S., Rauch, R., Bensaid, S., Hofbauer, H., Weber, G., Saracco, G. | Publication | Gasification | https://doi.org/10.3390/app8040514
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| Status report on thermal gasification of biomass and waste 2021 | IEA Bioenergy Task 33 | Report | Gasification | https://task33.ieabioenergy.com/wp-content/uploads/sites/33/2022/07/Status-Report2021_final.pdf
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| Twinning for Promoting Excellence, Ability and Knowledge to Develop Advanced Waste Gasification Solutions | Tamosiunas, A., Skvorcinskiene, R., Striūgas, N., Urbonas, R., Mergner, R., Ball, I., Janssen, R., Rutz, D., Pazeraite, A., Genys, D., Fendt, S., Bastek, S., Seemann, M.
| Publication | Gasification | http://www.etaflorence.it/proceedings/?detail=18303 |
| Efficient diagnosis of grate-fired biomass boilers by a simplified CFD-based approach
| Rezeau, L.I. Díez, J. Royo and M. Díaz-Ramírez | Publication | Other | https://doi.org/10.1016/j.fuproc.2017.11.024
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| Energy and the Environment | Itskos G; Nikolopoulos N.; Kourkoumpas D.-S.; Koutsianos A.; Violidakis I.; Drosatos P.; Grammelis P. | Book | Other | https://doi.org/10.1016/B978-0-444-62733-9.00006-X
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| Introducing an Artificial Neural Network Energy Minimization Multi-Scale drag scheme for fluidized particles | A. Nikolopoulos, C. Samlis, M. Zeneli, N. Nikolopoulos, S. Karellas, P. Grammelis
| Publication | Other | https://doi.org/10.1016/j.ces.2020.116013 |
| Commercial status of direct thermochemical liquefaction technologies
| IEA Bioenergy Task 34 | Report | Pyrolysis | https://task34.ieabioenergy.com/wp-content/uploads/sites/3/2024/02/WP3.3-DTL-Final.pdf
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| Ignition and combustion characteristics of hydrotreated pyrolysis oil in a combustion research unit | Jinlin Han, Yu Wang, L.M.T.Somers, Bert van de Beld | Publication |
Pyrolysis | https://doi.org/10.1016/j.fuel.2022.123419 |
| Life Cycle Analysis of Energy Production from Food Waste through Anaerobic Digestion, Pyrolysis and Integrated Energy System
| S. Adebayo Opatokun, A. Lopez-Sabiron et al. | Publication | Pyrolysis | https://doi.org/10.3390/su9101804 |
| MUSIC White Paper Fast Pyrolysis Bio-oil | P. Reumerman, J. Vos, T. Lammens | Report | Pyrolysis | https://www.music-h2020.eu/publications-reports/MUSIC_D6-1_WhitePaperPart2FastPyrolysisBio-Oil_FV.pdf
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| Production of Chemicals and Materials from Direct Thermochemical Liquefaction; Potential applications, status, outlook and challenges | IEA Bioenergy Task 34 | Report |
Pyrolysis | https://task34.ieabioenergy.com/wp-content/uploads/sites/3/2024/02/DTL_Production_Chemicals_and_Materials_final.pdf
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| Pyrolysis Demoplant Database | IEA Bioenergy Task 34 | Dataset | Pyrolysis | https://demoplants21.best-research.eu/projects/displaymap/twhWVt
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| Pyrolysis Energy Conversion Systems | Grammelis, Panagiotis; Margaritis, Nikolaos; Kourkoumpas, Dimitrios-Sotirios | Publication | Pyrolysis | https://doi.org/10.1016/B978-0-12-809597-3.00445-4
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