Search results
There are 91 results.
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 40: Deployment of Biobased Value-Chains (Working Period 2019 - 2021)
IEA Bioenergy Task 40 traditionally focused on international trade and supply chains of biomass for bioenergy. Starting in 2018, the systems view was broadened, also to better meet Austrian requirements. The supply chain focus was maintained, but with a broader premise: The establishment of bio-based value chains for a sustainable and fair bioeconomy.
IEA Bioenergy Task 40: Deployment of biobased value chains (Working period 2022 - 2024)
Bioenergy Task 40 traditionally focused on international trade and supply chains of biomass for bioenergy. Starting in 2018, the systems view was broadened, also to better meet Austrian requirements. The supply chain focus was maintained, but with a broader premise: The establishment of bio-based value chains for a sustainable and fair bioeconomy.
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 40: Sustainable International Bioenergy Trade - Securing Supply and Demand (Working Period 2010 - 2012)
Relevant international trade currents of biomass for Austria as well as frame conditions for sustainable use of biomass have been analysed and documented. One of the key issues was to analyse certification procedures for sustainable bioenergy products.
IEA Bioenergy Task 42: Biorefinery (Working Period 2007 - 2009)
Austrian Participation on IEA Bioenergy Task 42: "Biorefineries - Co-production of Fuels, Chemicals, Power, and Materials from Biomass", Triennium 2007 to 2009
IEA Bioenergy Task 42: Biorefining - Sustainable Processing of Biomass into a Spectrum of Marketable Bio-based Products and Bioenergy (Working Period 2010 - 2012)
Further development of the biorefinery classification system, identification of relevant biomaterial, development potential for energy and product oriented biorefineries, guideline for sustainability evaluation, global perspective on biorefineries, dissemination of knowledge, networking and involvement of stakeholders, country reports and trainingscourse.Kurzfassung
IEA Bioenergy Task 42: Biorefining in a Circular Economy (Working Period 2019-2021)
Biorefineries can provide a wide range of products such as energy, fuels, chemicals, food, feed and materials based on renewable resources. In this project, relevant information on biorefineries regarding technologies and biobased products will be compiled at international expert level and results on an ecological and economic assessment of selected biorefineries will be provided.
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 44: Flexible Bioenergy and System Integration (Working Period 2019 - 2022)
Goal of Task 44 is to analyse bioenergy solutions that can provide flexible resources in a low carbon energy system. The objective is to improve understanding on the types, quality and status of flexible bioenergy, and identification of barriers and future development needs in the context of the entire energy system (power, heat and transport).
IEA Bioenergy Task 44: Flexible Bioenergy and System Integration (Working Period 2022 - 2024)
IEA Bioenergy Task 44 contributes to the development and analysis of bioenergy solutions that can provide flexible resources for a low carbon energy system. The objective is to improve the understanding on the types, quality and status of flexible bioenergy, and identification of barriers and future development needs in the context of the entire energy system (power, heat and transport).
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 Technology Collaboration Programme (IEA Bioenergy TCP)
IEA Bioenergy’s vision is to achieve a substantial bioenergy contribution to future global energy demands by accelerating the production and use of environmentally sound, socially accepted and cost-competitive bioenergy on a sustainable basis, thus providing increased security of supply whilst reducing greenhouse gas emissions from energy use.
IEA Hydrogen (Hydrogen TCP)
The Hydrogen TCP aims to accelerate deployment and use of hydrogen technologies by carrying out and co-ordinating collaborative activities of analysis, applied research and communication.
IEA Hydrogen Task 41: Analysis and Modelling of Hydrogen Technologies
IEA Hydrogen Task 41 focused on the current representation of hydrogen and its utilization pathways in various models and approaches to improve them. Different levels of modelling were considered: Choice of appropriate modelling approach, structural representation of hydrogen use chains, as well as data needed for this.
IEA Hydrogen Task 42: Underground Hydrogen Storage
The IEA Hydrogen Technology Collaboration Program’s Task 42 on Underground Hydrogen Storage focuses on advancing the technical, economic, and societal viability of underground hydrogen storage in porous reservoirs, salt caverns, and lined-rock caverns.
IEA Hydrogen Task 45: Renewable Hydrogen Production
Due to the increasing pressure to replace fossil fuels with alternatives, the demand for renewable hydrogen supplies is also increasing. In this project, the state of the art of various established and innovative production paths will be collected, processed and then made available to the public.
IEA Hydrogen Task 48: Future demand of Hydrogen in Industry
The task provides an overview of the current and expected use of hydrogen in various industrial sectors. It evaluates the extent to which past and predicted developments in the use of hydrogen in industry deviate from the roadmaps of different countries. This information is important for both companies and policymakers and can support the ramp-up of hydrogen use and the decarbonization of the industrial sector.
IEA PVPS Task 12: PV Environmental Health And Safety (working period 2016-2018)
The aim of IEA PVPS Task 12 is to foster international collaboration in the area of photovoltaics and environment. That includes compiling and disseminating accurate Information on environment, health, safety, and other aspects of sustainability associated with the life-cycle of photovoltaics. The austrian contribution addresses LCA, implementation of sustainability aspects and dissemination.
IEA PVPS Task 12: Photovoltaics (PV) Sustainability Activities (working period 2024 - 2027)
Photovoltaics (PV) is a renewable energy source that is an important technology for the energy transition. For this reason, or rather despite this, it is important to consider sustainability aspects in PV as well. End-of-life solutions in particular play an important role, as a strong increase in the number of end-of-life modules is expected in the coming years. Well-functioning recycling methods, repair possibilities or reuse options are of great importance. In this project, these existing methods and capacities in Austria are being researched and published in reports and workshops.