Projects
There are 54 results.
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.
SURO - The urban underground as mine? Potential of secondary resources in subsurface infrastructure systems
Feasibility of a resource cadaster to inventorize, characterize and locate material stocks in subsurface infrastructure networks. The results are used for the economic assessment of secondary resource potentials.
SlagShot
Investigation and analysis of the possible admixture of EAF slags as cement replacement in shotcrete applications for filling spandrels. In collaboration with circular economy expert Thomas Romm ZT, promising results are being tested for application at WienerLinien construction sites.
The Green Parking Space – Utilization of urban parking areas for production of biomass
Many traffic areas in urban environments are actually used as such only a small fraction of the time. Subject of this project was to investigate the possibility of using those areas by additional integration of photobioreactors for the production of biomass, integrating such systems to the maximum extent into the urban substance and energy cycles.
U-Bahn goes circular - Increasing the Circular Economy in the Civil Engineering Works of Vienna’s Subway Lines
The objective is to develop and pilot strategies for the reuse and material recovery of excavated materials in order to significantly reduce CO₂ emissions, landfill volumes, and the use of primary raw materials. To this end, innovative analytical methods, digital tools, new business models, and the legal frameworks at the interface between construction and waste legislation are addressed. The results are intended to serve as the basis for a subsequent real-world laboratory and to enable scalable processes for future infrastructure projects. In doing so, the project makes a tangible contribution to climate neutrality, resource conservation, and sustainable procurement in public construction.
Urban Mining - Energy and resource savings due to urban mining
The use of natural resources in long-lived products and buildings has led to the build-up of enormous urban material stocks. The present project analyses the potential of these urban mines to increase the resource efficiency of modern cities.
V-Form – Manufacturing unreinforced vaulted concrete floors with variable pneumatic formworks
V-Form is working on the development of vaulted concrete floors in terms of structural design and building physics, as well as on a new formwork system. Thanks to the efficient shell construction, around 70% CO2eq-emissions can be saved compared to reinforced concrete flat slabs. The reusable and variable pneumatic formwork system aims to enable the economical production of the double-curved concrete shells.
Vertical Farm Aspern - Democratization of vertical farming under consideration of parameters of circular economy
Planning, construction and optimization of a vertical farm for urban food production, involving the users in the operational management. The building and the operator concept represent the entire food value chain, from planting to selling.
WLCÖ - Whole Life Carbon Austria: Comparative life-cycle assessments for buildings and construction methods in Austria
The project's aim is to develop a scientifically robust building LCA methodology that can be applied throughout Austria and enable a neutral, consistent comparison of conventional and future-proof constructions.
ZEBdemo - Development and demonstration of a scalable zero emission building for the realization of climate-neutral cities
The ZEBdemo project is developing and demonstrating a scalable zero-emission building that drastically reduces CO2 equivalent emissions during the construction phase by using building materials such as clay bricks and straw insulation. At the same time, operational emissions are minimized through an intelligent, data-driven energy management system.
fERNkornSAN – decarbonization and renovation with renewable materials of the "Gründerzeit"-building Fernkorngasse 41
Using the example "Gründerzeitgebäude" in Fernkorngasse 41, 1100 Vienna, technical challenges and issues related to phasing out gas and oil as well as adapting to climate change are investigated. A particular focus is placed on the use or resource-efficient and ecological building materials and highly efficient technologies. The results should be the basis for the use for further projects.
greenWATERrecycling – utilization of greywater for energy recovery and for providing greywater-filtrate for watering green walls
Development of a system for energy-recovery of waste heat of greywater and of greywater-filtrate in ordert o reduce the energy consumption of hot water supply and the water consumption for irrigation.
m-hub - a web-based data hub for collection and query of material compositions of the building stock of the City of Vienna
The project creates a web-based platform with which the material composition of buildings within the city of Vienna can be entered and queried. In the background, a prediction model based on artificial intelligence is trained to make forecasts for buildings that have not yet been cataloged.
reSOILution - Utilization of excavated soil for the production of earthen building materials
Excavated materials generate large amounts of waste and represent a key lever for resource conservation and waste reduction in the construction sector. The reSOILution project explores how excavated soil can be circularly processed into earthen building materials to reduce CO₂ emissions and promote a sustainable construction industry.