Suchergebnisse
IMPACT – Hybrid hydraulic and electric charging of stratified compact hot water
The IMPACT project is developing an innovative decentralised hot water storage technology for large-volume urban housing. Thanks to a novel, flat design, the system enables highly efficient utilisation of renewable energy sources such as heat pumps and photovoltaics. The aim is to create a cost-efficient, sustainable solution for decarbonising water heating that is optimised using intelligent energy management and machine learning methods.
#EEG++ Digital Energy Communities Optimized
The project aims to develop an innovative energy system for plus-energy neighborhoods by integrating advanced photovoltaic installations, IoT technology, and energy communities to maximize the self-consumption of renewable energy while ensuring economic efficiency and user-centricity.
MARGRET - Measurement of greened/non-greened objects for the adaptation of calculation models
Development of measurement methods to determine the influence of greening measures on greened versus non-greened reference objects with contemporary building standards under uniform framework conditions. Proposals for adaptations of calculation models or standards to e.g. enable an integration in the energy performance certificate.
Thannhausen 2.0 - Thannhausen energy district: a role model and testbed for a renewable energy supply for neighbourhoods
Evaluation and testing of different energy distribution approaches in a neighbourhood using direct lines, storage or new legal options through the ElWG (Electricity Industry Act). The project builds on the existing direct line system in Thannhausen and will test different use cases for the (climate-neutral) supply of neighbourhoods there.
Circular Bio Floor- Floor construction made from biomaterials
In this project biogenic building materials from wood industry waste and geopolymer binders are developed that can be used as tamped fill or 3D-printed dry-screed elements in timber construction. These materials offer functional benefits and an excellent eco-balance, contribute to the conservation of forests and enable the production of separable and reusable floor segment panels using digital manufacturing technologies. That significantly reduces the consumption of primary raw materials.
Optimization in Existing Structures - Implementation Concept for Energy Optimization in the Existing District of Nofels in Feldkirch
The project aims to optimize energy use in the district through savings, densification, retrofitting, and energy storage. Additionally, climate-adapted open spaces are intended to enhance quality of life and resilience. The results will be scaled up to the entire city and make a significant contribution to achieving climate neutrality.
ELEMENTS - Development of a procedure for the evaluation of elements of the post-war building stock (1960 - 1979) in Graz, Austria
Investigation of the building stock constructed in Graz between 1960 and 1980 with the aim of creating the basis for developing a potential analysis procedure regarding its preservation and refurbishment. Stakeholders, including those from the fields of planning and building practice, will be involved in the development of the results.
BATTMON - Increasing the usable charging capacity, service life and safety of battery storage systems in urban areas
The aim of BATTMON is to develop an improved method of determining the condition of battery storage systems for applications in buildings and neighborhoods. To this end, area-based foil sensors are being developed for the spatially resolved measurement of temperature and pressure. This data will be used to estimate the state of charge and also the state of health more accurately and to detect cell damage at an early stage in order to reduce the risk of fire and explosion.
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.
CEPA-Connect
The CEPA energy facade is an innovative building refurbishment system with an external active energy level. The aim is to revolutionize the refurbishment market. The development of the system focuses on holistic solutions for the thermal-energetic refurbishment of buildings.
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.
KliB40-Climate Compass: Climate-neutral Bregenz 2040, climate compass for the structured participation of stakeholders and the citizens
The "KliB40 Climate Compass" supports Bregenz on its path to climate neutrality by 2040 through transparent development, selection, and monitoring of measures. It facilitates the coordination of climate protection activities and actively involves stakeholders. By evaluating existing software solutions, the project ensures optimal digital support for planning and implementing the city's climate strategy.
GeoHub - Sustainable heat management of near-surface geothermal energy in urban environments
Innovative approaches to streamline geothermal projects from planning to operation, ensuring they are climate-neutral, resource-efficient, and economically viable.
Fit4NEB_Linz - Sommerfeld Ebelsberg: NEB-Neighbourhood development sustainable, aesthetic, participatory
Building on the previous planning and participation processes, sustainable, aesthetic and participatory development principles should be defined, and an New European Bauhaus (NEB) quality assurance process set up. Furthermore, implementation projects that are suitable for the EU funding program Horizon Europe should be designed.
5th Gen HG - 5th Generation Heating Grid Neutal
In the 5th Gen HG project, an energy supply concept based entirely on renewable electricity and heat is to be developed for the municipality of Neutal in Burgenland and the neighbouring technology site. A newly designed 5th generation heating grid will form the local energy distribution backbone in the municipality. In addition to the technical and economic conceptualisation, the integration of local stakeholder requirements is a key feature of the project.
MokiG: Monitoring for climate-neutral buildings
The aim is to develop and implement an innovative monitoring concept to demonstrate the achievement of climate neutrality in buildings. A central element here is the integration and linking of various data sources. The basis for this is a data mesh structure, artificial intelligence and the creation of digital twins. Finally, the methodology will be tested on real buildings and discussed with users.
ECO-Transformation - Energy transformation through community building, sufficiency and serial solutions using the example of the "Cottage District"
Combining technical and environmental-psychological expertise to develop a transformation process towards a climate-neutral neighbourhood based on the methods of community building, sufficiency potential and serial implementation solutions using the example of the Cottage Quarter. Preparation of the serial implementation of the developed solutions and the transformation process.
MADOKLI - Mannersdorf climate fit! Using local resources to combat and adapt to climate change for a climate-neutral neighbourhood
Development of a climate-neutral neighbourhood by integrating previously unused heat sources and sinks, such as the underground Mühlbach stream, to supply municipal buildings, to establish use-oriented water management and to develop solutions for climate-friendly outdoor spaces in the centre of Mannersdorf am Leithagebirge.
SAGE - scalable multi-agent architectures for facility management and energy efficiency
The SAGE project is developing scalable multi-agent architectures that enable buildings to recognize operational anomalies autonomously and react dynamically to environmental changes. The integration of multi-agent architectures in combination with Large Language Models (LLMs) and the development of a human-in-the-loop approach will optimize the collaboration between humans and machines. These solutions should significantly reduce the energy consumption of buildings and increase user-friendliness.
Urban Sky - Satellite-based planning and analysis applications for climate-neutral and resilient cities
The project investigates how satellite data can support cities and municipalities (e.g. urban development, spatial energy planning, mobility transition). Based on demand and potential analyses, service concepts will be derived that integrate existing data and tools with satellite applications. The results will be presented in a study and a Space4Cities implementation roadmap.