Projects

There are 64 results.

Ressourcenwende

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.

Ressourcenwende

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).

Ressourcenwende

DigiTech4CE - Digital key technologies for circular production

DigitTech4CE analysed industrial cycles in discrete, digitalised production; their participants, advantages/disadvantages and framework conditions, as well as the key digital technologies required. Fields of action were developed, according to the needs of Austrian industry. Recommendations for action serve the development of sustainable, Austrian production that builds and expands competitiveness through circular innovations.

Ressourcenwende

EPSolutely - Development of a circular economy concept in the plastics industry using the example of EPS

In a system-wide cooperation of all relevant actors of the EPS value chain system, concepts, technologies and methods for an EPS circular economy are developed. The integration into an overall concept with optimised logistics and transport systems should enable the transformation of linear EPS value creation systems into a circular economy.

Ressourcenwende

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.

Ressourcenwende

EdeN - Efficient decentralized sustainable food production

In the EdeN project, a decentralized vertical farming concept is extended to meet circular economy requirements. The combination of vertical farming with closed energy-, resource- and distribution-loops is a possible disruptive concept in food production. The developed concepts will be accessible and transferable to other food producers, and its limitations will be pointed out.

Ressourcenwende

Electrify-CerAMics – Additive manufacturing of electrically conductive ceramics for hydrogen production processes

The Electrify-CerAMics project is developing material and processing strategies for new electrically conductive ceramic materials for chemical conversion processes that can be structured using lithography-based ceramic manufacturing (LCM) and in which electrically conductive phases can be generated in a targeted manner.

Ressourcenwende

Green-TUrbine - Sustainable Manufacturing and Lifecycle Optimization for Pelton Runners through Wire-Arc Additive Manufacturing

The Green-TUrbine project investigates the integration of WAAM technology into the lifecycle of Pelton turbines to enhance their sustainability. The principles of "Rethink, Reduce, Reuse" are applied to optimize manufacturing, resource consumption, and the reuse of the runners. A comprehensive LCA will evaluate the ecological and economic impacts.

Ressourcenwende

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.

Ressourcenwende

IRONER - Potential for innovative and sustainable recycling of steel

Within the framework of the IRONER project, open questions were identified and the necessary innovations for increased steel recycling were developed. In addition to a material flow analysis, stakeholder interviews and ecological and economic considerations, the influences of increased steel recycling on metallurgical processes and material properties of steel products were examined.

Nachhaltig Wirtschaften

Investigation of the sustainable utilisation of carbon from methane pyrolysis

One of the possible alternative production routes for renewable hydrogen is methane pyrolysis. Compared to other, alternative production routes, methane pyrolysis has the lowest energy input (less than a quarter of water electrolysis) with a very high hydrogen yield.

Ressourcenwende

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.

Ressourcenwende

KI4COMP - AI-based prediction of moisture distribution in composites

The project aims to develop an AI model for predicting moisture distribution and the mechanical properties of composite materials under various environmental conditions. By using integrated sensors and machine learning, more precise and easily accessible predictions can be achieved. This facilitates material development, reduces testing efforts, and promotes sustainable innovations through the increased use of natural fibers.

Nachhaltig Wirtschaften

KRAISBAU - Development of AI tools for a transformation to a circular economy along the life cycle of buildings

The BMK lead project KRAISBAU is a collaboration of 32 partners for the realization of a sustainable and circular construction industry. The project focuses on the development and implementation of AI-supported solutions in circular construction along the entire value chain. The knowledge gained is disseminated through factsheets, roadmaps and training courses with the aim of establishing scalable and efficient approaches for existing buildings.

Ressourcenwende

LightCycle

Fiber-reinforced thermoplastic composite components with low weight, so-called lightweight components for transport and mobility, lead to significant CO2 savings. Despite established production technologies and weight savings, further progress in lightweight construction is increasingly difficult because the sustainability of these products is currently not given due to the unresolved recycling problem, although the regulations require, among other things, 85 % recycling of an end-of-life vehicle.

Ressourcenwende

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.

Ressourcenwende

NNATT - Sustainable use of excavated materials from civil engineering and tunnelling using sensor-based technologies

The holistic system developed in the NNATT project for the sustainable utilisation of excavated materials starts with the geology and extends through the construction process to recycling. With the help of sensor-based real-time analyses and an AI-supported decision matrix, excavated materials are separated and further developed into customised products.

Ressourcenwende

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.

Ressourcenwende

NatMatSave30! – substitution of naturally mined raw materials to achieve material-footprint goals in 2030!

Blast furnace slag (BFS) is a waste product in a steel manufacturing process and is available regularly and in huge amounts. It should substitute naturally mined, mineral raw materials. This means also calcium carbonates, which are used in building industry and are responsible for ca. 50 % of the domestic material consumption of 167 Mio tons. By wet-milling BFS it’s oxides should be able to form calcium carbonate again by recarbonatisation with CO2 from the surrounding atmosphere.

Ressourcenwende

OPENing Re-Use – Optimal planning decisions in the re-use sector

In an operational context, companies in the circular economy are faced daily with the question of whether a used product should be repaired, remanufactured, refurbished or recycled. The decision on what to do with used products is fraught with a great deal of uncertainty and must be made on a case-by-case basis - product-individually and depending on factors such as brand, condition, age, demand or recycling possibilities. As part of the "OPENing Re-Use" project, a business planning tool is being developed to support companies in their re-use planning, thereby increasing the efficiency of re-use processes and making re-use activities even more competitive with the purchase of new products.