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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.
sewageENERGYrecovery - Performance comparison of different wastewater heat recovery systems for renewable heat generation
Independent detailed testing of the performance and efficiency of different wastewater heat recovery systems in actual operation by analysing measurement data. Evaluation of the analysed systems with regard to their optimal application possibilities.
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 %.
urban pv+geotherm - Innovative concepts for the supply of large volume buildings/ quarters with PV and geothermal energy
The use of renewable energies in inner city locations is mostly linked to higher costs andconsidered as problematic. The aim of this project was to optimize (cost and energy) heating (and where required, cooling) using geothermic and photovoltaic for an urban, densely-built development area. With the project´s findings it will be easier to ecologically and economically plan the use of renewable energies especially in urban areas.
vilFIT – Villach Fit 4 Urban Mission
In this project, measures, strategies and the necessary capacity building for achieving climate neutrality in the city of Villach will be advanced. The focus is on social and structural innovations (participation processes, development of pilot initiatives, public relations, etc.) as well as the definition of networks and structures or controlling and monitoring instruments.
ÖKO-OPT-AKTIV - Optimised control and operating behaviour of thermally activated buildings in future urban districts
Development and simulation of scalable, distributed control strategies for the use of the storage effect of thermally activated components in buildings of future city districts for their energy supply by an energy centre.
ÖKO-OPT-QUART - Economically optimized control and operating mode of complex energy networks of future city districts
In the project ÖKO-OPT-QUART energy-based, economic and control-orientated models will be developed in order to simulate the operating mode of complex, sustainable energy networks in city districts. For an exemplary configuration these models will be combined to an overall model which allows a realistic economic comparison of different control strategies. The final goal of the project is the development of a method for the systematic design of cost-optimized, predictive control strategies for complex energy networks in city districts.