Suchergebnisse
IEA Bioenergy Task 33: Gasification of Biomass and Waste (Working Period 2019 - 2021)
The main aim of IEA Bioenergy Task 33 is the international as well as national information exchange and networking on thermochemical gasification of biomass and waste. The focus is on exchange of information regarding R&D programmes in area of biomass and waste materials gasification, commercial facilities and the marketing chance for gasification facilities to identify and avoid technical and non-technical hurdles.
IEA Bioenergy Task 32: Biomass Combustion and Co-firing (Working Period 2019 - 2021)
Austrian participation in IEA Bioenergy Task 32 "Biomass Combustion and Cofiring" during the working period 2019 - 2021 and participation in defined task priorities, events and projects that are relevant for Austria. International and national dissemination and networking activities to exchange information and promote cooperation.
IEA Bioenergy Task 34: Direct Thermochemical Liquefaction (Working Period 2024 - 2028)
Direct thermochemical liquefaction of biomass and residues enables the production of fuels, bioenergy and other green carbon products. The co-production of several products is particularly important for the economic efficiency of the overall process. This project provides technology overviews of decentralized pyrolysis plants and case studies on co-production of green gas and biochar as well as integration into bioenergy systems.
IEA Bioenergy Task 44: Flexibilization and System Integration (Working Period 2025 - 2027)
What are the benefits of more integrated processes and systems? How can we measure integration and what should we look for when coupling between different sectors? IEA Bioenergy Task 44 provides answers to these and similar questions, especially in relation to a circular bioeconomy and the energy transition.
IEA Bioenergy Task 37: Energy from Biogas (Working Period 2025 - 2027)
Anaerobic digestion systems are an important component in waste and wastewater management as well as in agriculture. The state of the art of the technologies and the development of the sector vary greatly internationally. The main topics of the exchange of experience in task 37 are Co-benefits of biogas in the circular economy, framework conditions for digestate utilization, monitoring of microbial cultures in biogas plants, and comparison of economic framework conditions.
IEA Bioenergy Task 33: Gasification of biogenic and waste feedstocks for a sustainable future (Working Period 2025 - 2027)
Thermal gasification will be crucial for the energy transition. Austria’s participation in the project strengthens the exchange of information and networking between stakeholders. This ensures that Austrian actors are regularly informed about gasification activities in other member countries. In the task workshops, they can also present their own research and industry projects and benefit from international knowledge sharing.
IEA Bioenergy Task 32: Biomass Combustion (Working Period 2025 - 2027)
Biomass combustion is an important technology for the provision of renewable energy worldwide. In addition to the climate-friendly supply of heat and electricity, biomass combustion offers market-ready solutions for net-negative emissions (carbon capture technologies). It therefore represents a key technology for achieving climate targets. This project aims to ensure the exchange of information on relevant topics and thus support the success of Austrian players from industry and research.
IEA Bioenergy Tasks 42: Biorefining in the circular economy (Working Period 2025 - 2027)
Biorefineries are sustainable production technologies for the process-integrated manufacturing of a wide range of products, such as food, animal feed, materials, fuels, chemicals and energy from renewable resources. For the transformation of industry biorefinery technologies are making an essential contribution to the implementation of a circular economy and climate protection. The task aims to promote the commercialisation and market launch of biorefinery technologies.
IEA Bioenergy Tasks 42: Biorefining in a Circular Economy (Working Period 2022 - 2024)
The aim of the IEA Bioenergy Task 42 is to facilitate the market introduction of environmentally friendly, socially acceptable and economical biorefineries. In addition to networking, the interaction between national and international stakeholders as well as the dissemination of the generated results via workshops, presentations, publications, etc. are important activities.
IEA Bioenergy Task 37: Energy from Biogas (Working Period 2022 - 2024)
Biogas technology is now widespread in many of the Task's participating countries. In addition to general knowledge sharing and highlighting best practice examples, the focus of the work in this triennium lies on the role of biogas in decarbonising industry and agriculture, biogas in the energy system and process optimisation in the area of emissions and process stability.
IEA Bioenergy Task 40: Sustainable Bioenergy Markets and International Trade: Securing Supply and Demand
Austrian participation in the IEA Bioenergy Task 40 consortium in the triennium 2016-2018: There was an intensive networking through contributions and scientific work in task meetings and workshops, in subtasks and in intertask projects on the topic "international bioenergy trade ". Lessons learned have been disseminated internationally and nationally and are available for free download in English.
IEA Bioenergy Task 37: Energy from Biogas and Landfill Gas (Working Period 2013 - 2015)
The Austrian representatives participated in the expert group „IEA Bioenergy Task 37 – Energy from Biogas“ for the period 2013-2015. Their main tasks was the work on the technical brochures on biogas plant monitoring, digestate processing and the evaluation of pretreatment technologies. In addition, they participated in the knowledge exchange of the participating countries.
IEA Bioenergy Task 33: Gasification of Biomass and Waste (Working Period 2016 - 2018)
The objectives of Task 33 are to monitor, review and exchange information on biomass and waste gasification research, development, and demonstration and to promote cooperation among the participating countries and industry to eliminate technological impediments to the advancement of thermal gasification of biomass and waste.
IEA Bioenergy Task 39: Commercializing Conventional and Advanced Liquid Biofuels from Biomass. (Working Period 2013 - 2016)
The aim of Task 39 „Liquid Biofuels“ is to provide information and analyses on technology development as well as on policy issues and markets to provide scientific background for political and economical decisions. Task 39 initiated mutual R&D projects, to improve the economics of advanced technologies, to exploit new feedstocks and to gain knowledge for the developments after 2020.
IEA Bioenergy Task 32: The status of large scale biomass firing (2016)
Erfahrungen von Biomasse-Mitverbrennung in Großanlagen und Praxisbeispiele technischer Lösungsansätze für die wesentlichen Anlagenbereiche.
W.R. Livingston et al.
Herausgeber: IEA Bioenergy Task 32
Englisch, 88 Seiten
Downloads zur Publikation
Synthesis Report: Mobilisierung nachhaltiger Bioenergie-Versorgungsketten (Mobilizing Sustainable Bioenergy Supply Chains)
Der Bericht enthält das Ergebnis eines Projekts von Task 37, 38, 39, 40, 42 und 43, in dem anhand von fünf Fallstudien die Chancen und Risiken typischer Biomasse-Versorgungsketten analysiert wurden.
Status report on thermal biomass gasification in member countries (2016)
Dieser Report bietet eine Übersicht über die Biomassevergasungstechnologien, Nutzung des Produktgases sowie über den Status der Vergasung in den Mitgliedsstaaten des IEA Bioenergy Task 33. Weiters werden auch Highlights der Biomassevergasung beschrieben.
Jitka Hrbek
Herausgeber: IEA Bioenergie Task 33
Englisch, 163 Seiten
Daylighting and electric lighting retrofit solutions: A source book of IEA SHC Task 50 “Advanced Lighting for Retrofitting Buildings”
Im Handbuch „Daylighting and electric lighting retrofit solutions“ werden Kunstlicht- und Tageslichttechnologien für den Einsatz in der Sanierung von Beleuchtungsanlagen analysiert. Ein Bewertungsschema erlaubt einen gemeinsamen Vergleich der Lösungen in Hinblick auf Performance, Kosten und Lichtqualität.
Martine Knoop, Berat Aktuna, Bruno Bueno, Stanislav Darula, Arnaud Deneyer, Aicha Diakite, Peter Fuhrmann, David Geisler-Moroder, Carolin Hubschneider, Kjeld Johnsen, Andre Kostro, Marta Malikova, Barbara Matusiak, Patrick Prella, Wilfried Pohl, Luo Tao, Eino Tetri
Herausgeber: Martine Knoop, Universitätsverlag der TU Berlin
Englisch, 14 Seiten
Downloads zur Publikation
IEA SHC Task 59: Making deep renovation of historic buildings happen - learnings from the Historic Buildings Energy Retrofit Atlas (2021)
Tiefgreifende Renovierung historischer Gebäude möglich machen - Erkenntnisse aus dem Historic Buildings Energy Retrofit Atlas
Franziska Haas, Dagmar Exner, Daniel Herrera-Avellanosa, Walter Hüttler and Alexandra Troi
Herausgeber: SBE21 Sustainable Built Heritage
Englisch, 10 Seiten
IEA Bioenergy Task 44: Expectation and implementation of flexible bioenergy in different countries, Edition 2021: Ausblick auf Flexible Bioenergienutzung für 11 OECD-Länder
Dieser Bericht gibt einen Überblick über den Status und die Erwartungen an flexible Bioenergie in elf OECD-Ländern, um verschiedene Ansätze für flexible Bioenergie zu erkennen, und fasst Treiber und Hindernisse zusammen.
Daniela Thrän, Katharina Schering, Uta Schmieder, Kjell Andersson, Paul Deane, Martin, Dotzauer, Ilkka Hannula, Christiane Hennig, Ernst Höftberger, Jaap Kiel, Lukas Kranzl, Pieter Kroon, Nora Lange, Mads Pagh Nielsen, Karolina Norbeck, Amy Philbrook, Ian Rowe, Tilman Schildhauer, Fabian Schipfer, Hanne Siikavirta, Lassi Similä, Giacomo Talluri
Herausgeber: IEA Bioenergy TCP, Task 44
Englisch, 129 Seiten