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VERTICALurbanFACTORY
The project researches possibilities and potentials of highly efficient use of space through modern concepts of "stacked" functions and vertical production.
ENUMIS - Energetic effects of urban manufacturing in the city
The project examines the challenges of urban manufacturing (UM) from the energy perspective and shows opportunities arising from the implementation of UM concepts for the future design of sustainable energy systems for cities.
EnergyCityConcepts - Methods and concepts for the implementation of sustainable energy systems in cities
Two concrete model regions (small city Gleisdorf and urban city quarter Salzburg-Schallmoos) will be developed and tested using new methodical approaches (interdisciplinary urban and regional energy planning, modeling and simulation). Therefore, it is aimed to substantiate scenarios and concepts for the implementation of defined targets on technical, ecological and economic criteria.
Storage Cascade MZ: Storage cascade system to establish urban PLUS energy systems on the example of the city of Mürzzuschlag
In the "Storage Cascade MZ" project, battery storage systems are implemented on different grid levels in the city of Mürzzuschlag, whose measurement data enable an integrated grid monitoring and create the basis for a future expansion of the nominal power of photovoltaic (pv) systems.
CHALLENGE - Highly efficient use of hot gas and waste heat in air/water heat pumps for plus-energy buildings and quarters
CHALLENGE aims to further develop the system concept for air-to-water heat pumps in such a way that they can be used efficiently and without the above mentioned negative effects in densely built-up urban areas. In concrete terms, validated simulations and a functional model of the overall system on a laboratory scale are to be used to demonstrate that the concept can save 10% of electrical energy, reduce the noise of outdoor units in summer to a minimum and prevent the formation of local heat islands.
ARIS - Application of non-linear control engineering and implementation of intelligent sensor systems for the improvements of energy efficiency in the building sector
The major goal of the project was the development of innovative control concepts for controlling and optimizing heating, cooling and ventilation systems (HVAC) as well as building loads. The implementation of advanced, energy efficient non-linear control techniques in building management systems is supported by new sensor technologies that are applied to building and energy systems in order to improve their energy-efficient operation.
Sozial100%Erneuerbar: 100% renewable heating and cooling supply in social housing - the demonstration project Käthe-Dorsch-Gasse
100 % renewable (on-site) heating and cooling supply in social housing while achieving good living comfort. Implementation, monitoring and optimisation of an overall heating and cooling system that has not yet been implemented in this combination (especially in social housing).
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.
RENEWnow - New impulses for the highly efficient energetic renovation of multi-storey buildings and districts
Exploration of an innovative approach for the highly efficient renovation of apartment buildings in Austria. The aim is to develop a new service model (one-stop shop) for property managers and owner associations through a targeted, novel mix of technical and non-technical measures.
INNERGY - Real laboratory in the central Inn-valley for climate-neutral semi-urban areas
Sustainable energy supply solutions for existing quarters and industry had been surveyed holistically and cross-sectorally in a small-structured area, consequently pilot projects had been elaborated with the aim to build up a climate-neutral region.
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.
Green SandboxBuilder - Regulatory sandboxes in the field of sustainable construction and renovation
In the "Green SandboxBuilder" project, for the first time in Austria, the need for regulatory sandboxes for ecologically sustainable and climate-effective projects in the building sector had been systematically explored. The implementation of regulatory sandboxes in the Austrian construction sector can contribute to decisively accelerating the introduction of technological, procedural and social innovations and thus to achieving the sustainability goals.
MuT - Monitoring of urban Technologies: Classification, Specification, Evaluation
In the frame of the project a classification system for Smart City Technologies had beed developed, the relevance of a wide range of technologies in terms of their potential contribution to the development of sustainable and more resilient cities with a high quality of life had beed evaluated and a comprehensive classification of the technical maturity of relevant technologies, technical (sub-)systems and technology-related services had been given.
M-DAB2: Material intensity of inner development - resource assessment and localization of urban development potentials
For the first time, the material intensity of inner development (in terms of material quantities) for different design variants is to be considered in the evaluation of inner development potentials. A set of methods for the holistic evaluation of potential areas and different development variants and scenarios for resource-saving inner development will be created.
Smart Pölten 2.0 Holistic view on a Vertical Farm in preparation for a demonstration project for the city of St. Pölten
The city of St. Pölten forsees great potential in Vertical Farming with regard to the objectives related to the concept of the Smart City program - linking local food production, quality of life by reducing resource consumption. This has to be evaluated by combining Vertical Farms with existing living buildings. Eco-social and socio-economic considerations play an important role in this process.
OPEN HEAT GRID - Open Heat Grids in urban hybrid systems
The primary research topic of OPEN HEAT GRID was to investigate the possibilities of enforcing the feed-in of industrial waste heat into existing district heating networks. The project results show that excess heat is not for free: despite minimal variable costs, the investment costs need to satisfy usual payback periods. The analysis shows that there is no need for a regulation in the sense of a feed-in obligation or market liberalization. However, from an economic point of view, information asymmetries exist, which may lead to irrational decisions.
CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling
Natural nighttime ventilation and daylight-optimized shadowing are high potential approaches to efficiently and economical cool buildings. Nevertheless, the full potential cannot be acquired, since, if at all, such behavior is manually initiated by users. Goal of this project is the development of an automated, self-learning system that can assess the full cooling capabilities and establish an alternative to conventional air conditioning systems.
ReBuildStock - Portfolio management for the decarbonisation of larger housing stocks
Portfolio management method to support the decision-making processes of owners of larger housing stocks in developing strategies for the rapid and socially responsible decarbonisation of their building stock.