Das Projekt "Sustainable exploitation of biomass for bioenergy from marginal lands in Europe (SEEMLA)" wird vom Umweltbundesamt gefördert und von Fachagentur Nachwachsende Rohstoffe e.V. durchgeführt. The aim of the SEEMLA project is the reliable and sustainable exploitation of biomass from marginal lands (MagL), which are used neither for food nor feed production and are not posing an environmental threat. The main target groups are regional authorities and public or private owners of MagLs, who can provide knowledge on land availability and are responsible for managing these. Furthermore foresters, farmers and the civil society affected by transformation of MagL into energy crop plantations are important cooperation partners for the project's success. The initial challenge of the project is to define MagL. In order to achieve high yields on the MagL the goal is to develop and optimize cropping systems for special sites. The project focuses both on existing plantations of energy crops on MagL and on the establishment of new plantations on MagLs. General guidelines and manuals shall attract and help relevant stakeholders as well as piloting shall prove the feasibility of SEEMLA results. The first scenario will enable the assessment of good practice and the refinement of current practices, making them more sustainable (environmental, economic, social). The second approach will transfer good practices to underused MagL. The project will focus on three main objectives: the promotion of re-conversion of MagLs for the production of bioenergy through the direct involvement of farmers and foresters, the strengthening of local small scale supply chains and the promotion of plantations of bioenergy plants on MagLs. Moreover the expected impacts are: Increasing the production of bioenergy, farmers' incomes, investments in new technologies and the design of new policy measures. The project team is balanced between scientific and technical partners as well as national and regional organisations. By including partners from South-East, Eastern and Central Europe the knowledge transfer between regions of different climatic and political backgrounds can be established.
Das Projekt "Supporting Sustainable Energy Production from Biomass from Landscape Conservation and Maintenance Work (greenGain)" wird vom Umweltbundesamt gefördert und von Fachagentur Nachwachsende Rohstoffe e.V. durchgeführt. The aim of greenGain is to strengthen the energy use of regional and local biomass from the maintenance of areas and landscape elements, which is performed in the public interest. The scope of the biomass used, will be any material predominantly produced from nature conservation and landscape management, but not from energy-crops. The main target groups are regional and local players, who are responsible for maintenance and conservation work and for the biomass residue management in their regions. Moreover, the focus will be on service providers - including farmers and forest owners, their associations, NGOs and energy providers and consumers. The project will show strategies to build up reliable knowledge on local availability of these feedstocks and know-how on issues from logistics to storage and sustainable conversion pathways for the transformation of these feedstocks to renewable energy (heat and energy products). Furthermore political, legal and environmental aspects will be addressed in model regions. Awareness raising, governance and public acceptance actions will be focussed on. General guidelines will be prepared to guarantee a wide dissemination to other regions in the EU. The regional partners will be actively supported by Technical Partners for the project measures' development and implementation. As a CSA, the project focal point will be the exchange between the model regions and other similar relevant players in the EU, by good practice exchange, a topic-specific website, several workshops and educational site visits in different regions as well as other standard public relations activities. The project team is carefully balanced between technical and scientific organisations and local demand side oriented players. Regions in northern Europe with a wide knowledge in this field are cooperating with European (south-west, middle, east) regions, having an untapped potential, that can be accessed through efficient knowledge transfer.
Das Projekt "Biocatalytic solar fuels for sustainable mobility in Europe (Photofuel)" wird vom Umweltbundesamt gefördert und von Volkswagen AG durchgeführt. Photofuel studies and advances the biocatalytic production of alternative liquid transportation fuels, which require only sunlight, CO2 and water. Microbial cells directly excrete hydrocarbon and long chain alcohol fuel compounds to the medium from which they are separated, without the need to harvest biomass. This significantly improves the costs and energy balances as only a minimum of nutrients is required for self-replication of the biocatalyst, whilst cell harvesting, drying and lipid extraction is omitted. Such minimum-input systems are compatible with operation on degraded or desert land which avoids the pitfalls of most of the currently available biofuel technologies. The products are drop-in fuels that fully or partially replace their fossil counterparts without the need for new infrastructure. To set a benchmark for alternative solar fuels, three research groups will collaborate in the advancement of the biocatalysts from TRL 3. The best biocatalytic system(s) will be up-scaled and operated outdoors in photobioreactors modified for direct fuel separation at a scale of several cubic meters (TRL 4-5). The identification of optimal future fuel blends with a fossil fuel base and Photofuel biofuels as additives, as well as the analysis of performance and emissions in car or truck engines, will be evaluated by the oil- and automotive-industry partners. The entire pathway will be assessed for environmental and economic performance as well as social acceptance of large scale production in rural communities and by the consumer. All results will be combined to a business development plan, which clearly identifies the opportunities but also the challenges prior to an economic fuel production in compliance to the EC Fuel Quality Directive.
Das Projekt "Bioenergy Villages (BioVill) - Increasing the Market Uptake of Sustainable Bioenergy (BioVill)" wird vom Umweltbundesamt gefördert und von Deutsche Gesellschaft für Internationale Zusammenarbeit GmbH (GIZ) durchgeführt. The overall objective of BioVill is to develop regional bioenergy concepts in Slovenia, Serbia, Croatia, Macedonia and Romania up to the investment stage in order to become 'bioenergy villages'. This will increase the market uptake of bioenergy on the basis of cooperation with partners from countries with established bioenergy markets (Austria, Germany). The following specific objectives and activities will contribute to the overall objective: (1) 5 villages have developed the institutional set-up and energy management concept for becoming a bioenergy village up to investment stage for physical infrastructure with at least one bioenergy village in Serbia, Croatia, Slovenia, Romania and Macedonia. The local market uptake of bioenergy value chains are to be proven by signing of letters of commitment. (2) Mobilization of 62 GWh/y heat and power based on solid biomass in at least 5 target villages. The individual biomass value chains will include the production and distribution of heat and electricity. The concepts include technical and non-technical aspects for each target village. (3) Increase public acceptance of sustainable bioenergy and raise public awareness on commercial opportunities for farmers, foresters and the bioenergy value chain as a whole by means of public participation. This will be realized by ensuring the public participation of the inhabitants (5,000 households) in the target regions for setting up at least 5 villages across the 5 implementing countries. (4) Capacity Building of users and key actors in business and legislation to manage the bioenergy villages in a sustainable way and be able to either enact the EU based national legislation or make full use of the opportunities that these new markets create for them. In the set-up of bioenergy villages along the bioenergy value chains it will involve at least 500 participants in order to have a critical mass of key actors.
Das Projekt "Fostering Sustainable Feedstock Production for Advanced Biofuels on underutilised land in Europe (FORBIO)" wird vom Umweltbundesamt gefördert und von WIP, Wirtschaft und Infrastruktur GmbH & Co Planungs-KG durchgeführt. Sustainable bioenergy production and use in the EU should be further developed in order to support Member States (MS) achieving 20-20-20 targets and foster rural development as set out in EIP AGRI. FORBIO will demonstrate the viability of using land in MSs for non-food bioenergy feedstock production without interfering with the production of food or feed, nor with land currently used for recreational and/or conservational purposes. Competition with other uses of the land is only one component of the sustainability of bioenergy and a number of cross-cutting environmental, social and economic aspects may present challenges to the extended deployment of these value chains, while assuring that biofuel sustainability standards are met. FORBIO will develop a methodology to assess bioenergy production potential on available 'underutilised lands' in Europe (contaminated, abandoned, fallow land, etc.) at national and local level. In addition, in this context the project will provide multiple feasibility studies in selected case study locations in three countries that that aim to set the basis for building up local bioenergy value chains that meet the highest sustainability standards and improve efficiency and sustainability of those already available in the case study sites through the provision of roadmaps for bioenergy development.
Das Projekt "SUNlight-to-LIQUID: Integrated solar-thermochemical synthesis of liquid hydrocarbon fuels (SUN-to-LIQUID)" wird vom Umweltbundesamt gefördert und von Bauhaus Luftfahrt e.V. durchgeführt. Liquid hydrocarbon fuels are ideal energy carriers for the transportation sector due to their exceptionally high energy density and most convenient handling, without requiring changes in the existing global infrastructure. Currently, virtually all renewable hydrocarbon fuels originate from biomass. Their feasibility to meet the global fuel demand and their environmental impact are controversial. In contrast, SUN-to-LIQUID has the potential to cover future fuel consumption as it establishes a radically different non-biomass non-fossil path to synthesize renewable liquid hydrocarbon fuels from abundant feedstocks of H2O, CO2 and solar energy. Concentrated solar radiation drives a thermochemical redox cycle, which inherently operates at high temperatures and utilizes the full solar spectrum. Thereby, it provides a thermodynamically favourable path to solar fuel production with high energy conversion efficiency and, consequently, economic competitiveness. Recently, the first-ever production of solar jet fuel has been experimentally demonstrated at laboratory scale using a solar reactor containing a ceria-based reticulated porous structure undergoing the redox cyclic process. SUN-to-LIQUID aims at advancing this solar fuel technology from the laboratory to the next field phase: expected key innovations include an advanced high-flux ultra-modular solar heliostat field, a 50 kW solar reactor, and optimized redox materials to produce synthesis gas that is subsequently processed to liquid hydrocarbon fuels. The complete integrated fuel production chain will be experimentally validated at a pre-commercial scale and with record high energy conversion efficiency. The ambition of SUN-to-LIQUID is to advance solar fuels well beyond the state of the art and to guide the further scale-up towards a reliable basis for competitive industrial exploitation. Large-scale solar fuel production is expected to have a major impact on a sustainable future transportation sector.
Das Projekt "Finanzierung zukunftsicherer lokaler Bioenergieketten" wird vom Umweltbundesamt gefördert und von Internationales Institut für Wald und Holz NRW e.V. durchgeführt. Lokale Bioenergieprojekte in Europa müssen sich der aktuellen Herausforderung stellen, langfristige Versorgung von Biomasse zu gewährleisten ohne dabei in Wettbewerb mit anderen Landnutzungsformen zu treten und negative Auswirkungen auf die Umwelt zu haben. Im Projekt SecureChain werden unterschiedliche Europäische Regionen wo Bioenergy bereits gut verankert ist und noch breite der teile der Land- und Forstwirtschaft ungenutzt sind und insofern nur geringes Konfliktpotential zu erwarten ist, analysiert. Eine Mobilisierung dieser ungenutzten lokal vorhandenen ressourcen ist eine der vielversprechendsten Möglichkeiten um Biomasse optimal zu nutzen und neue Versorgungsketten aufzubauen. Standardisierter Nutzen der Biomasse unter Ausnutzung allfälliger Synergien, entsprechendes Management der Versorgungsketten und ein eine Bewertung der Umweltauswirkungen sollen eine zukünftige Marktakzeptanz gewährleisten.
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