Suchergebnisse
DeB-AT – Detection and separation of portable batteries from mixed waste using sensor technology and artificial intelligence
The DeB-AT project plans the development of a laboratory or pilot plant demonstrator for the targeted separation of batteries from mixed waste streams. The concept of the demonstrator follows the methodological elaboration of the necessary requirements of optical sensors and the separation technology for AI-supported detection of the general population of batteries.
PVReValue – Holistic recycling of photovoltaic modules
The PVReValue research project is pursuing a new approach to the holistic recycling of photovoltaic modules, based on an innovative multi-stage composite separation process that is being developed in the course of the project. The multi-stage separation process and the novel combination of modern treatment processes are expected to achieve a recycling rate of more than 95 wt.-%.
Wastewater cycle. Cascadic recycling of wastewater and organic residue streams in buildings.
Basic research is being conducted for a sustainable cycle-oriented system for the building-integrated recycling of wastewater and food waste. This includes nutrient recovery for a sustainable circulation system (production of plant fertiliser and biochar), electricity production to meet the demand (up to 15 %) of plus-energy buildings, as well as water recovery for irrigation of the building's own or urban greenery and for summer cooling.
AGreeNew - New biobased products of the agricultural biorefinery
AGreeNew aims to expand the product portfolio of the agricultural biorefinery. Sour whey, farm manure and green silage will be used as raw materials to produce biosurfactants, fertilizers and protein-rich animal feed. The production processes of these valuable products will be assessed in terms of sustainability and economic potential.
CE4ALL – Circular economy for all – Incentives, enablers and inhibitors for sustainable consumption
Based on an analysis of current milieu-specific consumption behavior, the CE4ALL project aims to identify sector-specific incentives and enablers for strengthening the circular economy and to uncover inhibitors. Another focus of this work is the consideration of inclusion aspects. CE4ALL is working on a consumption-centered investigation beyond the previously production-oriented considerations of the circular economy.
UPTextIL - Upcycling cellulose from used textiles into high-strength filaments using spinning technology in ionic liquids
The aim of the project is to develop a process for spinning cellulose from used textiles using ionic liquids, to analyze potential impurities in this recycling material stream, and to develop strategies for their removal or avoidance during the spinning process. The project aims to lay the foundations for closing the material cycle of cellulose from used textiles.
QB3R – Quality controlled high‐performance components consisting of 100% bio‐based resins with high potential in repair and recycling
The QB3R project aims to develop an epoxy resin system having a 100% bio‐based carbon content. The QB3R resin will be processable with various different manufacturing techniques resulting in high performance components for long‐lasting material goods.
Earth movement: Clay - a climate- and resource-friendly building material
Manufacturing processes and transport of building materials are energy-intensive and cause high CO2emissions. In addition, many building materials pose a health and disposal problem due to their content of disruptive and harmful substances. Locally available clay can replace conventional materials if appropriately prepared and processed, and helps to save both manufacturing processes and transport routes.
KAFKA - Development of cascade reactions for a circular economy
KAFKA aims to expedite the development of biorefinery processes and showcase the potential of process cascades for producing high-quality chemical products from biogenic resources/waste. The central element of the project is an innovative reactor platform that flexibly combines biotechnological, electrochemical, and thermal processes. Investigations into new process cascades to enable a circular economy are thereby accelerated.
Logos
Hier finden sie diverse Dateiformate des Logos des Bundesministerium für Innovation, Mobilität und Infrastruktur (BMIMI) sowie der FFG, der ÖGUT und der Forschungs- und Technologieprogramme des BMIMI.
Braunau 2040
Die Stadtgemeinde Braunau am Inn ist eine der ersten Klimabündnisgemeinden Oberösterreichs, langjähriges Mitglied in einer Klima- und Energiemodellregion und setzt regelmäßig Maßnahmen und Projekte im Bereich Klimaschutz um (Energiekonzept, Mobilitätskonzept, etc.). Zusammen mit dem Klimabündnis Oberösterreich möchte die Stadtgemeinde Braunau am Inn nun einen kommunalen Klimaneutralitätsfahrplan mit klaren Handlungsoptionen für die kommenden Jahre entwickeln.
Ternitz 2040 – Ternitz mit Klimaneutralitätsfahrplan nachhaltig gestalten
Die Stadt Ternitz ist seit 1991 Klimabündnisgemeinde, seit 2010/2011 Teil der KEM-Region Schwarzatal, seit 2011 e5-Gemeinde (mit 4e) und wurde 2023 in der LEADER-Region NÖ-Süd zur "Energie.Vorbild.Gemeinde" ernannt. Zentrale Themenfelder sind der Ausbau der Photovoltaik, die Förderung des Rad- und öffentlichen Verkehrs sowie der eMobilität, Energieeffizienz im öffentlichen Bereich, die Nutzung industrieller Synergien und energieeffiziente Gebäudekonzepte im Wohnbau.
Ternitz 2040
The town of Ternitz has been a Climate Alliance municipality since 1991, a member of the KEM Schwarzatal region since 2010/2011, an e5 municipality (with 4e) since 2011, and was awarded the title "Energie.Vorbild.Gemeinde" in June 2023 within the LEADER region NÖ-Süd. Key focus areas include the expansion of photovoltaics, the promotion of cycling, public transport and e-mobility, energy efficiency in the public sector, the use of synergies with local industry, and the implementation of energy-efficient residential building concepts.
CO2 free Deutschlandsberg 2040
The city of Deutschlandsberg has set itself the goal of becoming climate-neutral by 2040 and is developing a climate neutrality roadmap to ensure climate-resilient urban development. This plan is also intended to combine the expected population growth, due to the commissioning of the Koralm railway at the end of 2025, while maintaining a high quality of life.
Köflach klimaneutral - Stadt mit fossiler Geschichte und klimaneutraler Zukunft
Für die Stadt Köflach stand in den letzten Jahrzehnten der Strukturwandel vom früher prägenden Braunkohleabbau zu einer nachhaltigen Zukunft im Vordergrund. Aufbauend darauf bietet Köflach gute Voraussetzungen als attraktiver Wohnstandort. Der nachhaltige Wandel der Stadt kann mit konsequenten Maßnahmen in Richtung klimawandelangepassten Wohnen und klimaneutraler Energieversorgung, bei gleichzeitiger Stärkung der überregional bekannten touristischen Ausflugsziele, vorangetrieben werden.
Köflach climate-neutral - a town with fossil history and climate neutral future
In recent decades, the city of Köflach has focused on structural change, moving away from the lignite mining that used to characterise the town and towards a sustainable future. Building on this, Köflach offers good conditions as an attractive residential location. The sustainable transformation of the town can be driven forward with consistent measures towards climate change-adapted living and climate-neutral energy supply, while at the same time strengthening the nationally recognised tourist destinations.
Braunau 2040
The city of Braunau am Inn is one of the first Climate Alliance municipalities in Upper Austria, a long-standing member of a climate and energy model region and regularly implements measures and projects in the area of climate action and protection (energy concept, mobility concept, etc.). Together with the Climate Alliance Upper Austria, the municipality of Braunau am Inn would now like to develop a municipal climate neutrality roadmap with clear options for action for the coming years.
Gebäudereport, Marktentwicklung Energietechnologien und Energieforschungserhebung
IEA PVPS Task 13: Leistungsfähigkeit, Betrieb und Zuverlässigkeit von Photovoltaiksystemen (Arbeitsperiode 2022 - 2023)
IEA-PVPS Task 13 zielt darauf ab, Marktakteure zu unterstützen, die an der Verbesserung des Betriebs, der Zuverlässigkeit und der Qualität von Photovoltaik-Komponenten und -Systemen arbeiten. Die im Rahmen des Projekts gesammelten Betriebsdaten von PV-Anlagen in verschiedenen Klimazonen werden dazu beitragen, die Grundlage für eine Einschätzung der aktuellen Situation in Bezug auf die Zuverlässigkeit und Leistung von PV-Anlagen zu schaffen.
Nachhaltig, baukulturell wertvoll und gemeinschaftlich Bauen
"New European Bauhaus"-Aktivitäten in Österreich
energy innovation austria
2/2025
Herausgeber: BMIMI gemeinsam mit dem Klima- und Energiefonds
Deutsch, 12 Seiten