There are 10 results.
Agriculture will become an important supplier of sustainable energy services for society. However, this sector can only fulfil this role if it operates on the base of sustainable energy provision itself. The project will determine the necessary measures to achieve this state for a concrete regional setting (eastern Styria) by the year 2020.
The project deals with the production of synthesis gas from biological fuels and biological residues using steam blown gasification. This synthesis gas will be used for polygeneration especially for heat, power, gaseous (substitute natural gas, SNG) and/or liquid fuel production.
Development of a concept that shows the possibility of changing the energy supply of a district from fossil to 100% renewable energy carrier
Development of a technical process to separate lactic acid from Brown Juice. Lactic acid is a promising chemical commodity which may be produced from silage juice at low costs and in an environmentally friendly way for subsequent synthesis of valuable products.
IEA Bioenergy Task 39: Commercialising Conventional and Advanced Transport Biofuels from Biomass and Other Renewable Feedstocks (Working Period 2019 - 2021)
IEA Bioenergy Task 39 deals with the commercialization of conventional and advanced biofuels, including innovative raw materials such as micro-algae, their economic, environmental and social assessment and the investigation of relevant policies. Findings from countries with a committed biofuels policy are made accessible to Austria, and success stories of Austrian industry, research and policy are promoted internationally.
IEA Bioenergy Task 39: Commercialising Conventional and Advanced Transport Biofuels from Biomass and Other Renewable Feedstocks (Working period 2022 - 2024)
The overall goal of Task 39 is to facilitate the commercialization of biogenic, sustainable, low-carbon transportation fuels. This includes conventional and advanced biofuels produced through various technological routes such as oleochemical, biochemical, thermochemical, and hybrid conversion technologies. The main goal is to accelerate the decarbonization of the transportation sector, with an increasing focus on long-distance transport, which is more difficult to electrify.
The main objective of the project is to improve the method for producing biodiesel by enzymatic catalysis.The target is to find a method to catalyze the production of fatty acid methyl esters by corn-cob-immobilized lipases which can be used in industrial scale.
The production of bioethanol in Bruck/Leitha in addition to the production of heat, power and valuable by-products from biomass will be optimized by a new process simulation tool under the target of maximum usage of waste and low temperature heat and optimal source and product usage.
The project gives an overview of the supply and demand for biofuels specifically dealing with the situation in Europe and that in threshold and developing countries using case studies as examples. Cases: Sweden and France as importing countries in the EU, and Senegal as a (potential) exporting nation.
Use of thermal cooling technologies and optimal combination with other heat energy consumers to use during summer the available district heating based on renewable energy sources: example of the municipality of Mureck
Optimal use of heating energy from a biogas CHP in the municipality of Mureck through demand side measures; the multifunctional energy centre Mureck on the way towards thermal air-conditioning: Multi-Mukli