Suchergebnisse
The IEA Bioenergy Annual Report 2006
Of the available biomass conversion technologies for production of more usable energy forms, fast pyrolysis is the least developed, but offers the benefits of a liquid fuel with concomitant advantages of easy storage and transport as well as higher power generation efficiencies than fossil fuelled systems at the smaller scales of operation that are likely to be realised from bioenergy systems.
Englisch
The IEA Bioenergy Annual Report 2005
Bioenergy is increasingly utilised to reduce emissions of greenhouse gases (GHG). Various options exist for trading bioenergy and bioenergy services between countries.
Englisch
Road Map for Dealing with Non-Permanence in LULUCF and REDD (2010)
To date the land use sector has failed to contribute to achieving climate mitigation goals in proportion to its potential. A major reason for this is the lack of a sufficiently robust and attractive solution to the non-permanence (reversibility) of carbon stocks that would garner stron support from Annex-I country stakeholders, including carbon market investors. Unless a solid solution to the reversibility problem is developed, REDD+ will also fail to result in significant increase in the use of forests to mitigate climate change.
Englisch
Workshop & Excursion: Waste Gasification
08. - 09. May 2018
ECN, Westerduinweg 3, 1755 LE Petten, NL
As organic materials like biomass or waste are gasified, the chemical process creates a clean syngas, which can be used in CHP production and/or for production of biofuels and/or chemicals. Compared to other waste-to-energy methods like burning, or incineration, the gasification process allows the syngas to be cleaned of contaminants prior to its use. Creating syngas through gasification is almost like closing the circle, or closing the loop, on waste’s lifecycle.
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 Bioenergy Executive Summary (2009)
This publication is the Excutive Summary of a report jointly prepared for IEA Bioenergy by the Energy Research Centre of the Netherlands (ECN), E4tech, Chalmers University of Technology and the Copernicus Institute of the University of Utrecht.
Englisch
Bioenergy - The Impact of Indirect Land Use Change (2010)
Summary and Conclusions from the IEA Bioenergy ExCo63 Workshop
Englisch
IEA Bioenergy Task 32: Biomass Combustion and Co-firing (Working Period 2016 - 2018)
Austrian participation in Task 32 "Biomass Combustion and Cofiring" in the working period 2016-2018 and active participation in the defined Task main objectives, events and projects which are of relevance for Austria. International and national dissemination and networking activities for information exchange and for the initiation of cooperation.
IEA Bioenergy Task 37: Energy from Biogas (Working Period 2016 - 2018)
Participation as Austrian representative in the expert group during the period 2016-2018 in order to achieve knowledge-exchange, establishment of technical reports and recommendations, as well as dissemination of the gained information to Austrian stakeholders.
NAMA Guidelines for Land-Use and Bioenergy (2010)
The land use and bioenergy sectors from an integrated system. This system has features that are likely to require approaches distinct from those suitable for other sectors. Thus, although a general framework for NAMAs has been developed, requirements appropriate to specific sectors are needed.
Mehrsprachig
Workshop: Residential wood combustion
23. January 2020
Messe Congress Graz - Conference Center Graz, AT
This workshop organized by IEA Bioenergy Task 32 covers highly relevant topics for residential wood combustion.
IEA Bioenergy Task 45: Climate and Sustainability Effects of Bioenergy within the Circular Bioeconomy (Working period 2025 - 2027)
Promoting sustainable bioenergy as part of the circular bioeconomy: Task 45 participation aims to improve understanding of the environmental, social, and economic impacts of bioenergy. The focus includes regional differences and the development of robust impact assessment methods to support decision-making by stakeholders such as communities, businesses, and governments.
IEA Bioenergy Webinar: Residential Wood Combustion - Towards Low Emission Systems
06. May 2021
Online, AT
IEA Bioenergy Task 32 works to gather and disseminate essential knowledge on how to reduce emissions from small scale wood combustion while maintaining the benefits of heating homes with local renewable resources. The webinar will present the most recent findings from ongoing work within Task 32 on design guidelines for wood stoves and real-life test methods. The full reports will be published in the coming month.
Workshop: IEA Bioenergy Task 44 - Flexible Bioenergy and System Integration
24. January 2020
Messe Congress Graz - Conference Center, Graz, AT
This workshop shows relevant links to other technological tasks within IEA Bioenergy.
The Contribution of Renewable Fuels to Road Transport Decarbonisation
17. November 2020
Online, AT
A team of experts has assessed the transport sector and its projected development up to 2030 and 2050 for a number of countries. The analysis is based on current national policies, projections of the vehicle fleet, and on the availability of renewable transport fuels. This webinar will present the main conclusions and recommendations of this work.
IEA Bioenergy: Understanding Indirect Land-Use Change (ILUC) and Why Reality is a Special Case
28. June 2023
Online, AT
Indirect Land-Use Change (ILUC) refers to the phenomenon where changes in land use for one purpose, such as the cultivation of crops for biofuels, can indirectly impact land use and environmental conditions elsewhere. Specifically, ILUC explores the potential effects of increasing demand for bioenergy crops on global agricultural land use patterns, deforestation rates, and greenhouse gas emissions. IEA Bioenergy invites you to participate in this free international webinar.
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 in a Circular Economy (Working Period 2016 - 2018)
The task deals with the analysis and dissemination of relevant information concerning biorefineries. In the last period the focus was on the development of an open-access tool for the TEE-evaluation (Technical/Economic/Environmental Assessment) of biorefineries.
IEA Bioenergy Task 37: Energy from Biogas and Landfill Gas (Working Period 2010 - 2012)
Key issues for realisation and dissemination of extraction of biogas from byproducts, waste and bioenergy crops were modulated by international experts.
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