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Resource-saving and sustainable production of high-quality steel by enhanced on-line control of stirring efficiency in vacuum degassing (SUSPRISE Joint Call)
For vacuum degassing of liquid steel, as it is used for production of high quality steel grades, an improved on-line monitoring and control system will be developed and applied. Thus the reliability of the vacuum degassing process will be improved, and simultaneously the consumption of energy and resources will be reduced.
ResourceRevival - District development from industry site to resource neutrality in Möllersdorf
The reuse of building elements is a much-discussed topic, but a truly circular district encompasses much more. Through interdisciplinary cooperation as part of a co-creative concept development at the Werk Möllersdorf, previously separately considered aspects of the circular economy are combined, symbioses between demand and availability of materials, energy, rainwater and grey water are identified and their circularity is maximized.
Revolutionary, cost efficient bitumen rooftop membrane with integrated photovoltaic modules
The project goal is to adapt the photovoltaic (PV) modules of crystalsol and an appropriately designed production process in order to integrate the flexible photoactive layer cost-effectively into waterproof roof membranes. At the end of the project the first membranes with integrated PV-layers will be produced. The success of this project would lead to enormous cost cutting and technological development advantages in the BIPV technology.
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.
S - House
Innovative Use of Renewable Resources demonstrated by means of an Office and Exhibition Building
S I P settlement models in passive house quality
Research, development and realization of integral building concepts in passive house quality!
SAFE - Creating a safe school environment together
Tactical urbanism for the temporary redesign of school surroundings to reorganize school mobility in a participatory process. The resulting catalogue of measures will serve as a blueprint for an implementation at other schools in Austria.
SAGE - scalable multi-agent architectures for facility management and energy efficiency
The SAGE project is developing scalable multi-agent architectures that enable buildings to recognize operational anomalies autonomously and react dynamically to environmental changes. The integration of multi-agent architectures in combination with Large Language Models (LLMs) and the development of a human-in-the-loop approach will optimize the collaboration between humans and machines. These solutions should significantly reduce the energy consumption of buildings and increase user-friendliness.
SAVE circular approaches for green buildings!
The project demonstrates the cycle and use of synergies in an ARWAG residential building from the extraction of valuable raw materials through a urine treatment plant (fertilizer) using energy recovery measures (heat recovery, heat pump, photovoltaics) to the use of the fertilizer for the generously designed greening measures and the associated effects on the microclimate.
SCI_BIM - Scanning and data capturing for Integrated Resources and Energy Assessment using Building Information Modelling
The aim of the project is to increase the resources- and energy efficiency through coupling of various digital technologies and methods for data capturing (geometry and materials composition) and modelling (as-built BIM), as well as through gamification.
SC_micro-quarters – Planning and modernisation of smart city quarters with a view to energy optimisation and a high quality of life
The SC_micro-quarters project demonstrates possibilities for urban planning and urban quarter development with a view to creating a path to a low carbon city with a high quality of life and good resilience, while taking into account existing and proposed buildings, infrastructures and uses. The central element is the modelling of urban structures at micro-quarter level.
SELF²B - self-aware, self-diagnosing buildings, HVAC, and PV systems for the next generation of energy efficient operations
SELF²B develops and demonstrates an AI-based, self-learning, and self-diagnosing fault detection and diagnosis (FDD) solution for HVAC and PV systems in two buildings in Vienna. The innovation surpasses the current state of the art by combining semantic data, ontologies, and machine learning. The goal is to achieve energy savings and efficiency improvements in building operations and to make the technology widely applicable.
SERECARB - SElective REcovery of Calcium CARBonate in paper sludge (SUSPRISE Joint Call)
Developing a new process based on selective recovery of calcium carbonate from paper mill effluents and sludge, purification, conversion into precipitated calcium carbonate (PCC) and reuse as filler in paper making.
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.
SIMPLE AD Evaluator - S.I.M.P.L.E. Sustainable Integration Modeling and Predictive Leveraging Evaluator
The SIMPLE AD Evaluator fills an existing gap in sustainable local planning by providing a low-threshold and collaborative evaluation tool for early planning phases. By linking questionnaires with System Dynamics models, the tool delivers well-founded decision-making foundations and customized sustainability checklists. This supports municipalities, project developers, and decision-makers in achieving a strategic and cost-efficient sustainable transformation from concept to implementation.
SIMULTAN - Simultaneous planning environment for buildings in resilient, highly energy efficient and resource-efficient districts
This project enabled the opportunity for an essential energy efficiency increase within overlapping buildings, to achieve the objective of resilient cities and districts with respect to a high quality of life, resource sustainability and energy efficiency. The goal was a workable tool based on a multidisciplinary planning approach, to support the decision finding process in order to design both refurbishment projects and new developments within a highly efficient city.
SKIN - Concept for a product service system in the area of surface treatment
Development of a concept for a product service system (PSS) in the area of surface treatment (varnish, laquer, paint). Instead of selling varnish and pain, the service of surface treatment (per square meter) should be developed for private and commercial users.
SMARTIES - SMART Innovative Energy Services - Analysis of requirements of smart energy-services
The emerging development of smart grids provides market opportunities for new ICT-based services ("smart value-added services"). Economic and organizational barriers are foreseeable that could affect the establishment of business models and service providers (data formats, connectivity, controllability, etc.). In order to improve the chances especially for new and local actors, SMARTIES proactively tries to eliminate hindrances of innovation.
SOCO.net - Solar Cooling Network for AUSTR(AL)IA
The main goal was to establish a long-term cooperation for "Solar Cooling" between the Austria Solar Innovation Center (ASiC) and the Center for Sustainable Energy Systems (CSES) at the renowned Australian National University (ANU) in Canberra. Combining the competences of both institutes immediately offers the chance to boost the penetration of the European and the Australian market with this new technology for cooling in sustainable buildings.
SOFC4City - SOFC-waste heat utilization for buildings and industry
In this project the application of a solid oxide fuel cell (SOFC) for energy supply (heat and power) of urban areas will be investigated. Due to the high temperature level of the produced heat it would be possible to use this heat for the energy supply of different heat and power consumers (residential buildings, industrial plants, etc.). One aim is to provide the SOFC-heat at several temperature levels in order to establish the advantages of the fuel cell. On the one hand the legal and market-based conditions will be evaluated, on the other hand the technological feasibility will be scoured by the use of CFD-simulation of the heat production.