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Wiener Neustadt Climate neutral
Wiener Neustadt as a pioneering city, is making a conscious and ambitious transition towards climate neutrality. This complex transformation requires different measures. The measures shall both be developed in-house or developed by others and transferred to Wiener Neustadt. The effect of the entire bundle of measures from the different areas (e.g. governance, implementation districts, learning environment or energy, mobility, buildings, etc.) is subject to fact-based climate monitoring.
WohnMOBIL - Innovative living and transport options in areas with high settlement pressure
The objective of the WohnMOBIL project is the promotion of a land-, cost- and traffic saving settlement development and a change of transport priorities (priority of eco-mobility). This shall be reached by the transfer of innovative living concepts like "transitory living", until now mainly used in urban areas, to suburban-rural areas and the interrelation with needs-oriented multimodal mobility concepts.
ZQ3Demo - Implementation of urban Future Quarters including stakeholder integration and legally and economically replicable solutions
ZQ3Demo accompanies three innovative urban quarters in Vienna to demonstrate and further develop ecologically and economically sustainable solutions for the implementation of Plus-Energy-Quarters (PEQ) on the basis of real-life examples.
Zukunftsquartier Österreich - Development of Quality-assured positive energy district concepts
The aim of this project is therefore to make a significant contribution to the (further) development and testing of systematically interlinked and innovative overall solutions for the implementation of quality-assured positive energy districts in Austria and to prepare the first demonstration projects.
baubehoerde.at - Development of a Vision 2030 for a Digital Building Authority and Recommendations for Action in Austria
In Austria, planning permission applications are submitted and managed largely manually. The aims of the baubehoerde.at project are to evaluate the potential and limitations of digitizing building approval processes and to create a Vision 2030 strategy for a digital building authority.
digiactiv - digital transformation for more interactivity in MEP-(mechanical, electrical and plumbing-)planning
The aim of the digiactiv project is to improve the interoperability between the different stakeholders in the building construction sector using open and neutral semantic data models. With digital transformation processes, digiactiv helps to increase the quality of planning and the operation of buildings, as well as to minimize the interface risk between various stakeholders.
ecoRegeneration: Development of a "Merit-Order" in order to assess regeneration heat for geothermal probes within urban residential neighbourhoods
In urban residential areas there are not enough active-cooled usages, to use the waste heat of the cooling process as required regeneration heat for geothermal probes; free cooling of the apartments is not sufficient. The project is developing various options (waste heat from commercial uses in the ground floor zones of residential buildings, by using waste heat of data centres, additional installation of heat generation systems for regeneration) within the urban settlement area, business models and is calculating life-cycle-costs of all solutions. The result should be a kind of "merit order" for regeneration heat.
fit4power2heat
The integration of heat pumps can increase the cost effectiveness of existing heating networks and counter the high costs for the expansion of power grids at the same time. Aim of the project is to develop innovative business models for small and medium municipal heating networks with focus on synergies between heat and power market. Main focus is a heat pump pooling for several heat grids.
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.
greening UP! Sustainable green maintenance, maintenance, maintenance of vertical greenery including legal aspects
Based on extensive surveys and analyses of existing vertical building greenery in outdoor areas (floor and system-bound façade greening) and vertical interior greenery, the project developed tailor-made green care, maintenance and repair concepts and addresses legal aspects. The "greening UP!" Knowledge pool with concrete recommendations and clearly presented findings as well as the conception of a digital tool for the "First Green Aid" complete the project.
lieBeKlima - quality assurance of cross-property greening for urban climate resilience in the neighbourhood development "Am Kempelenpark"
lieBeKlima aims to initiate the implementation of a cross-property and cross-system greening concept for the "Am Kempelenpark" neighbourhood development. This will be realized with innovative, identity-creating participation processes and a comprehensive quality assurance process. The focus lies on an interconnected consideration of integral greening concepts with higher-level water management and plus-energy concepts.
lowTEMP4districtheat - Reduction of the system parameters of heating networks for the integration of renewable heat sources using soft sensors
Analysis of the use of soft sensors in addition to selective real measurements for the complete recording of real-time parameters of heating networks. The data obtained enable detailed grid simulations with low computing power requirements and form the basis of a strategy for lowering the grid temperatures and feeding in decentrally generated heat.
mAIntenance - Investigation of AI supported maintenance and energy management
Optimized & reliable operation of Heating, Ventilation and Air Conditioning (HVAC) systems in terms of maintenance and energy management, using predictive, data-based & self-learning error detection. Conceptual design and prototype implementation of an AI (Artificial Intelligence) tool for automated data analysis and recommendations for technical building operators.
metaTGA - Metadata and process models for open BIM in building service engineering
The objective of this research project is to design a methodology for developing data and process models and to apply them by modelling selected MEP systems. A particular but not exclusive focus is put on the renewable heating technologies, e.g. heat pumps, solar heat and biomass as well as ventilation systems. The data and process models developed in this research project will be scientifically evaluated in two pilot projects. The models, the approaches taken during development and the project team’s experiences with the pilot application of the models will be disseminated openly.
openBAM - Open Building Automation Modelling - Open modeling of building automation over the entire building life cycle
Platform-independent modeling of control and regulation logic for detailed study of building automation systems involving construction and building technology. The result enables the analysis of energy saving potentials through building automation before construction.
plusenergy-FLAGSHIP: Plus-Energy office building 2.0 - the viadonau headquarters
In the course of this project, various innovations towards a "Plus-Energy Standard 2.0" are to be implemented and combined in an overall concept for the new viadonau headquarters (via donau - Österreichische Wasserstraßen-Gesellschaft m.b.H.).
scaleFLEX - Scalable method for optimizing the energy flexibility of districts
Development of a decentrally organized automation method for improving the demand-side flexibility options of buildings and districts. The utilized data-driven algorithm promise high scalability and therefore low installation and operating costs. The developed method will be validated using different building types (high-tech office buildings, low-tech office buildings, residential buildings).
see-it - Camera based, user centric daylight control system for optimized working conditions
In the project technologies in the field of building construction and building automation are being researched for quality and performance improvements in the workplace. The aim is to individualize the control of sun protection to the people who need to be protected from glare and overheating and hope to see through.
smart façade - energy potential of adaptive façade systems
A specially developed simulation model is employed to ascertain the energetic potential of adaptive façade systems. The dynamic behavior of the physical properties of the adaptive façade system reacts to both internal and external changing conditions. The goal was the development of an adaptive façade, which helps provide maximum comfort for the building occupants with minimum energy consumption.
solSPONGEhigh - High solar fraction by thermally activated components in an urban environment
Within this project the intensive use of thermally activated building elements (TABs) as an additional thermal storage in different buildings, with solar technologies (thermal, PV) preferred for energy supply, was investigated. The aim was to activate and use the thermal storage potential that is immanent in the building elements and thereby achieve solar coverage of the building's heat demand of nearly 100 %.