There are 13 results.
AR-HES-B – Energy storage, production and recovery of valuable substances in wastewater treatment plants
AR-HES-B develops technologically based concepts of municipal wastewater treatment plants in order to convert them from energy consumers into a hybrid energy provider, energy storage and a provider of resources. The concept enables wastewater plants to turn into an important platform in the regional energy and mass transfer.
Building Information Modelling supported compilation of a Material Building Pass; as a qualitative and quantitative documentation of the material composition of, and the material distribution within, a building structure. This project is a central milestone towards standardized, BIM-generated building material passes.
BIMstocks - Digital Urban Mining Platform: Assessing the material composition of building stocks through coupling of BIM to GIS
The main goal of BIMstocks is the development of a method for the digital capturing of the material composition of the existing building stock for follow up modelling of an Urban Mining Platform as well as for the prediction of the recycling potentials.
CO2 neuBau - The CO2-neutral Construction Site: a Contribution to the Climate Protection by the Austrian Construction Industry
Identification of all direct and indirect CO2, respectively, GHG emissions generated at construction sites. Analysis of the framework conditions and technologies towards demonstrating the options for their control. In parallel, added values, such as cost-benefit advantages of a CO2-neutral construction site, are outlined and quantified.
The aim of the project is the design, optimisation and demonstration of a hybrid energy supply system as well as optimised material flows for a restaurant and hotel business in an exposed location. The concept allows the integration of material flows into the heat and energy supply system.
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.
The research project investigates how digital technologies can support us in determining the existing and future material resources in construction qualitatively (building materials and their recycling) and quantitatively (quantities of building materials).
R-Bau - Development of a replicable deconstruction strategy for residential buildings to force the recovery-oriented dismantling
The aim of the project was to develop a replicable deconstruction strategy for residential buildings to force the recovery-oriented dismantling. The key aspects of the project are the development of standardized building models in order to analyse the recovery-oriented dismantling process, the design of a deconstruction catalogue and the transfer of the project findings to refurbishment, design and erecting of residential buildings.
The project follows the aim to analyze and to strengthen the transformative potential of Repair & Do-It-Yourself Urbanism with regard to a fundamental change of the existing poor sustainable handling of commodities in selected urban districts, their infrastructures and dominant business and private household practices into resilient areas.
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.
SynENERGY - Energy optimised settlement development by making use of synergies of energy efficiency, spatial planning and building culture
SynENERGY aims at an innovative, holistic approach to urban district optimization. The project targets a comprehensive analysis of the framework and urban development concept which includes not only optimisation of sustainable energy supply and use but also increased material flows (construction and disposal) at urban district level.
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.
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.