Suchergebnisse
IEA Bioenergy Task 39 - An Examination of the Potential for Improving Carbon/Energy Balance of Bioethanol
Englisch
IEA C3E TCP: Kick-Off Call with the Austrian Ambassadors (2020)
On the morning of Friday, 26th of June 2020, a kick-off call was organized with the Austrian representatives of the C3E Initiative as well as the newly appointed Austrian Ambassadors for the period of 2020 – 2022.
Herausgeber: IEA C3E TCP
Englisch
Downloads zur Publikation
Prospects for coal and clean coal technologies in India (Mills, 12-2007)
Englisch
International funding sources for major coal investment projects (Hill, 02-2006)
Englisch
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
Developments in fluidised bed combustion technology (Wu, 05-2006)
Englisch
WET FERMENTATION TECHNOLOGY FOR BIO-WASTES (2007)
Bio-waste Digestion Markgrafneusiedl: The example of a successful bio-waste fermentation plant described in this contribution is operated by Bio-waste Digestion "Markgrafneusiedl". The plant with an annual capacity of 15,000 tonnes went into operation in 2006. It can process a variety of bio-waste material such as waste from the meat processing industry, separately collected bio-waste from households and even food waste contained in steel barrels of up to 200 litres.
Englisch
Trace elements and fly ash utilisation (Sloss, 03-2007)
Englisch
RD&D on coal use in Australia and the COAL21 action plan (Henderson/Mills/Topper, 12-2005)
Englisch
European legislation (revised LCPD and EU ETS) and coal (Nalbandian, 03-2007)
Englisch
IEA Bioenergy Task 42 Biorefineries : adding value to sustainable utilisation of biomass (2009)
This feature article provides an overview of the work of Task 42: Biorefineries: Co-Production of Fuels, Chemicals, Power and Materials from Biomass. It was prepared by the Task Leaders, Mr. Ed de Jong, Avantium Technologies BC and Mr. René van Ree, Wageningen University and Research Centre, the Netherlands.
Englisch
Aerosols from biomass combustion (2005)
Proceedings of a workshop organised at the 18th of March 2005 in Graz. A summary of the meeting is available for download. The full proceedings are published as a separate book. IEA Implementing Agreement "Bioenergy".
Englisch
Innovative Energy Technologies in Austria - Market Development 2016
Biomass, photovoltaic, solar thermal collectors, heat pumps and wind power
13/2017
Peter Biermayr, Christa Dißauer, Manuela Eberl, Monika Enigl, Hubert Fechner, Kurt Leonhartsberger, Florian Maringer, Stefan Moidl, Christoph Schmidl, Christoph Strasser, Werner Weiss, Patrik Wonisch, Elisabeth Wopienka
Herausgeber: BMVIT
Deutsch, 242 Seiten
Downloads zur Publikation
IEA: Co-utilisation of Biomass with Fossil Fuels
Summary and Conclusions from the IEA Bioenergy ExCo 55 Workshop
Englisch
Development of miniaturized, ceramic high-temperature fuel-cell-components using resources-perserving mass-production processes
The application of nano scaled powder and powder injection moulding (PIM) for energy efficient co-sintering of miniaturized solid oxid fuel cells which can produce current and heat by using renewable raw materials.
Compact-Straw
The factory of tomorrow as a regional production network using renewable raw materials. A pilot project in the field of insulating materials.
Complete use of Quinoa for surfactants, dietary aliments and fibrous material
Surfactants from the pericarp were isulated and used in personal-care products. The fruit is being processed to high quality diet nutrition for coeliacs and dietary supplement. Fibre material is being gained from the stems.
The development of fused wood-only parquet elements
The development of the wood fusing technology to an innovative, ecological process of production of wood-only parquet elements, which do not contain any wood foreign substances as glue or thermoplastics.
PROMISE - Production with solar energy. Study on the potential of thermal solar energy systems in trade and industry depending on the production processes
Documentation of realized plants for the use of thermal solar energy in trade and industry companies. Identification of production processes and branches, which have a demand for low-temperature heat. Determine the potential of solarthermal systems to provide low-temperature heat. Case studies for branches and processes with the highest mid-term potential for realization of a solar plant.