Ozon as service

Developement of a concept of "service ozone as a special gas" has the main reason to support the chemical industrie, laboratories and others to substitute chemical oxidatives, which is a big ökological advantage.

50 green houses - Development and demonstration of a low-tech façade greening system

Development of a cost-efficient all-in façade greening system („Greening-Toolkit“) including a maintenance concept, involving all trades and processes, for a broad (facing roads) implementation on facades in the urban built environment, combined with a process innovation for simplification of all necessary coordination processes.

Edible Seestadt - Green Seestadt - Learning for the Edible City of the Future

"Edible Seestadt" ("Essbare Seestadt") identifies which contributions an edible city provides for a climate-neutral resilient district and how this contribution can be sustainably stabilized and optimized.

Pressekonferenz zur Eröffnungsfeier von MUGLI

Der erste mobile Experimentierraum für Bauwerksbegrünung „MUGLI“ wurde im August am Wiener Hauptbahnhof eröffnet und ermöglicht es, Bauwerksbegrünung hautnah zu erleben.

Info-Veranstaltung: Baufamilien-Tag

26. Apr 2009
1. Europäisches Passivhausdorf zum Probewohnen3922 Großschönau, AT

Der Sonnenplatz Großschönau veranstaltet am 29. März 2009 einen Baufamilien Tag. Dieses Mal zum Schwerpunktthema "Photovoltaik und Solaranlagen".

Linking Low Carbon Technologies with Low Carbon Society

Technology and Innovation Roadmap "BioHeating and Cooling"

Solar energy - a significant economic factor

MeteoR – mechanical-thermochemical process combinations for the recycling of fine fractions from waste treatment facilities

In waste treatment plants large quantities of fine fractions are generated. Due to their heterogeneity and properties, these fractions are currently not used although they contain a whole range of materials that represent valuable resources. The aim of the project MeteoR is to enable the utilization of all components (mineral, metallic, and combustible) of fine fractions by combining mechanical and thermochemical processes, to close material cycles and to significantly contribute to the further development of the Austrian circular economy and the reduction of CO2 emissions.

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.

DiRecT – Direct recycling and upcycling of titanium chips

In the project DiRecT, different new technologies will be developed and evaluated which make it possible to directly recycle the chips generated in the manufacturing process of high-quality titanium products or to produce directly from the chips near-net-shape components or improved semi-finished products (upcycling).

Innovations- und Vernetzungsplattform BioBASE

Bioökonomie und Kreislaufwirtschaft sind Schlagwörter einer neuen Wirtschaftsweise, die sich wieder stärker an den Rohstoffen und Kreisläufen der Natur orientiert und diese nützt, ohne sie zu zerstören oder langfristig zu erschöpfen. Konkret formuliert heißt das dreierlei: ein weitgehender Umstieg von fossilen auf nachwachsende Ressourcen, Rohstoffe im Kreis führen und eine generelle Reduktion unseres Ressourcenverbrauchs.

BitKOIN - CO2-reduced binding agent through thermochemical conversion of mineral wool waste combinations

In the BitKOIN project, conceptual, experimental and model research activities are conducted in order to develop a substitute material for ground-granulated blast furnace slag (GGBS). First, mineral wool waste and other mineral residues, which are required as additives to achieve the desired chemistry, are sampled representatively. The materials are then characterized chemically, mineralogically and physically and are additionally classified according to waste regulations. By thermochemical conditioning of the mineral wool waste, combined with the other waste materials, the "Huettensand 2.0" (GGBS 2.0) is developed. The project aims to develop the "Huettensand 2.0" , a durable GGBS substitute.

Hemp Ski, Recyclable ski manufacturing from hemp, bio-resin and waste streams

In industrial production for alpine skis, epoxy resins of fossil origin and pre-impregnated glass fiber reinforcements are processed today. Innovations that replace environmentally critical materials in skis with biogenic substitute materials with an improved environmental balance have so far been limited to the production of small series. This circumstance motivated the consortium to develop a solution for a circular bioeconomy with the HempSki project, which will also make industrial ski production from renewable raw materials and waste streams possible in the future.

PET2More - Biotechnological upcycling of PET plastic waste as a contribution to the gradual reduction of petroleum-based raw material dependency

The aim of the PET2More project is to develop a biotechnological process for upcycling PET plastic monomer waste. To this end, previously unknown and unavailable decarboxylase enzymes for the conversion of terephthalic acid and 2,5-furandicarboxylic acid into valuable chemicals such as benzoic acid and furan-2-carboxylic acid are to be identified, characterized and optimized by means of enzyme engineering.

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.

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.

Circular Economy Compass (KLW-Komp)

The Circular Economy Compass project has developed a responsive online self-assessment tool for the circular economy in SMEs. Based on a theory-based evaluation scheme, it is be possible to determine a company's degree of preparedness for a circular economy at a reasonable cost. To this end, the tool has a computational logic that automatically generates a circularity score (KPI, Key Performance Indicator) based on the answers.

NaKaReMa - Improving the sustainability of cable sheathing through regional, bio-based and recycled materials

The NaKaReMa project takes a holistic approach to cable sheathing for automotive applications and their improvement in terms of sustainability. To this end, various approaches are being investigated - both regional raw material sources to reduce transport routes and bio-based raw materials to reduce dependence on crude oil. The use of recyclates from cable sheathing to close the cycle through recycling is also being investigated.

IEA Tasks & Annexes

Tasks & Annexe aus den Technolpgieprogrammen der Internationalen Energieagentur (IEA)