Suchergebnisse

World Sustainable Energy Days 2025

4. - 7. März 2025
Wels

The leading conference on the energy transition and climate neutrality.

Road-to-Road/ Verschränkung neuartiger Methoden zur effizienten „Road-to-Road“ Inwertsetzung von Altasphalt

The planned combination of experimental and model-based methods for assessing/describing the behavior of asphalt shall enable the goal-oriented optimization of the performance/durability of recycled asphalt, with the resulting positive effects (CO2 balance, transport distances, landfill volume) being quantified within the project.

RE-FORM earth - Earth Building for Building Sector Transformation

In order to promote the use of earth, the RE-FORM earth project is creating a planning basis for the construction of structures and buildings containing earth. In order to counter uncertainties regarding the health effects of earth building materials, a comprehensive program is being carried out to investigate radiation exposure and potential pollutants in earth. By erecting a temperature-controlled rammed earth wall in a test room with subsequent measurements, the aim is to determine the extent to which the material can contribute to healthy indoor air due to its moisture-regulating properties and help to balance out energy peaks.

Secondary Phosphorus as Raw Material for the Chemical Industry

Recycling of Phosphorus as Contribution to the Security of Supply of Bioeconomy

CircularFood - High-quality products through cascading recycling cycles of residual materials from the food industry

The CircularFood project investigates the material and energetic cascading use of organic food residues from Austrian food production. The aim is to develop innovative processes for the extraction of high-quality protein components, liquid biofertilizers, organic plant substrates and peat substitutes in order to promote the circular economy and reduce CO2 emissions.

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.

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.

CICA - Chlorella in circular aquaculture

Project CICA allows the detailed investigation of fish wastewater and its treatment by algae cultivation, as well as the design and construction of a special photobioreactor to purify wastewater and produce fish at the same time.

SHyRE - Sulfuric acid and hydrogen production for the electronics industry through innovative recycling

In SHyRE, an innovative process for sulfuric acid recycling is being developed. The aim is to efficiently produce high-purity sulfuric acid and hydrogen by combining novel decomposition processes with electrochemical methods.

ReKEP

ReKEP relies on reusable transport containers instead of (disposable) cardboard packaging. These should be affordable, effective and flexible to use in the CEP sector (courier, express, parcel). The logistics processes involved are examined and adjustments are proposed to achieve economic, ecological and social sustainability.

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.

CycLR - Paint recycling and utilization of components

The CycLR project aims to implement a circular economy for water-based paints. A recycling process that enables the valorisation of recyclates is being developed, taking into account all parties involved in the value chain.

CEPAM – Circular Economy Powder for Additive Manufacturing

In the CEPAM research project, a recycling process for high-quality metal powders for additive manufacturing is developed. Various methods of energy input are being evaluated for energy efficiency, scalability and powder quality and built up on a pilot scale. The recycled metal powder is characterized and processed in the Laser Powder Bed Fusion process. In order to compare the mechanical properties of the printed components, parts are printed from both new and recycled powder.

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.

BATTBOX - BATTeryrecycling Best Operations by X-processes for circular battery ecosystem

In the BATTBOX project, e-mobility traction batteries are analysed for their cycle capability. The design and structure of battery systems are examined and evaluated regarding potential hazards. Based on this, the best possible handling and processing procedures are developed to improve and optimize the product life cycle regarding safety and recyclability.

StraTex ‐ Sorting and processing strategies for used textiles to produce recyclable fractions

In StraTex, suitable, economically viable and holistic strategies for the collection, processing and automated sorting of mixed non‐reusable textiles are being developed and experimentally implemented in order to increase the proportion of marketable fractions for high‐quality material recycling (preferably fibre2fibre).

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.