Suchergebnisse
GREEN Stone: development of a cement-free concrete with recycled content for applications in landscaping
The Green Stone project aims to develop geopolymer concrete with recycled materials in order to reduce the consumption of non-renewable resources and replace the cement content with alternative binders. The landscaping industry in particular requires lightweight, durable and weather-resistant materials.
Klimagärten³ - Biodiverse, CO2-saving, close to nature: climate gardens³ for Austria's garden future
The Klimagärten³ project is dedicated to the climate-friendly design of gardens and green spaces in Austria. The focus is on activating the previously untapped climate protection potential of private and public gardens. Through research, practical trialling and social networking, ways are shown in which gardens can act as CO₂ sinks and strengthen biodiversity.
Climate communities
Transdisciplinarily developed climate-friendly solutions for decarbonisation of the building stock in small and medium-sized municipalities. The application of the sample solutions will readily identifiable through a web tool.
KlimaQuartierNikolai
The project aims to improve sustainable energy supply and energy efficiency for the planned NikolaiQuartier in Villach by utilizing waste heat and local energy sources. An innovative energy concept, which also includes the regional hospital, is being developed. Active involvement of residents and stakeholders is key to securing acceptance of the eco-friendly neighbourhood.
SAFE - Creating a safe school environment together
Tactical urbanism for the temporary redesign of school surroundings to reorganize school mobility in a participatory process. The resulting catalogue of measures will serve as a blueprint for an implementation at other schools in Austria.
HeinrichBiCool - Climate-positive cooling and biodiversity through intensive greening of buildings
Using the example of an existing building of the University of Graz, currently affected by overheating, the project demonstrates what greening can achieve. Comprehensive monitoring of the indoor climate, building physics, energy requirements and biodiversity before and after the greening measures provides new scientific findings on the actual effectiveness of building greening.
PersonAI - User-Centered AI-based energy services built on personal preference models
Conduct a large-scale, long-term study with 40-50 people to create personal comfort profiles to increase comfort in buildings. The personal comfort profiles will then be fed back into the building control system as input variables in a proof-of-concept.
10., Rothneusiedl - climate model district Rothneusiedl: Preparation for the planned EU mission "New European Bauhaus"
Rothneusiedl will become a pioneering district for climate protection, climate adaptation and the circular economy. The existing RothNEUsiedl Charter outlines nine principles for making the district climate-friendly and inclusive. The dialogical and integrated process involves various target groups, including the planning and construction industry, future residents and businesses, in order to establish a local building culture at an early stage. NEB working principles are applied in order to support the parallel mission statement process.
QualitySysVillab - Protecting sustainable qualities in neighbourhood developments through process control and new digital methods
Development of a process concept to bring sustainable qualities in neighbourhood development from the intention and announcement level to the built reality. The process is supported by digital methods of energy and structural design and evaluated in the context of a case study.
BIM.sustAIn - Artificial Intelligence to enhance sustainability in BIM projects
The construction sector faces growing challenges in meeting sustainability requirements, particularly during early project phases where key decisions on materials, construction methods, and energy concepts are made. This project aims to leverage AI and BIM to optimize sustainability assessments by providing precise CO₂ balance forecasts and material suggestions. The innovative approach reduces manual effort and supports the implementation of climate-neutral construction, contributing significantly to Austria’s climate goals.
FlexHP - AI-supported control models for optimising the flexibility of heat pumps to reduce the load on the electricity grid
Development of a new type of energy management system for heat pumps that enables methods for intelligent heat pump operation and thus maximises flexibility. This requires forecast-based models for control that utilise technologies such as machine learning.
Strengths and weaknesses of the Austrian construction sector in relation to the New European Bauhaus Initiative
In cooperation with Initiative Bauhaus, an Austrian thinktank founded by the Federal Ministry for Climate Action, Environment, Energy, Mobility, Innovation and Technology (BMK) and different actors of the building industry like designers, architects, students, companies and the general public, the aim is to create a common strategy for the New European Bauhaus (NEB) initiative in Austria. This report shows best practice examples and further potential for new projects and guidelines in accordance with the goals of the NEB.
GreenFDT – Green Façade Digital Twin
In an interdisciplinary framework, the possibilities for optimizing the rear ventilation distance of façade greening elements and their potential impact on indoor and urban climate are being investigated. The precise and comprehensive investigation of these relationships is made possible by the extensive deployment of sensors and measuring tools and furthermore the development and integration of a digital twin in a BIM model.
Leitprojekt INNERGY (Tirol): Inntalfurche - Umsetzungsbeispiele der Flexibilisierung von Energiesystemen
Das Fernwärmesystem im Umfeld einer Versorgung mit volatilen erneuerbaren Energien soll durch Steigerung von Effizienz und Flexibilität und der Integration von Prosumern fit für die Zukunft gemacht werden.
Leitprojekt cells4.energy (Burgenland): Regionale Energiezellen als Multi-Energie-Reallabore für eine schnelle Systemtransition
Cells4.energy entwickelt regionale Modellösungen für Energiesysteme, die für eine breite Anwenderbasis in Österreich (und Europa) nutzbar sind und eine hohe Übertragbarkeit und Skalierbarkeit bieten. Grundlage hierfür ist eine digitale Infrastruktur, die verschiedene Sektoren und Anlagen miteinander verbindet und Nutzer:innen aktiv in Prozesse einbezieht, um einen möglichst hohen Anteil erneuerbarer Energie zu erreichen.
Reallabor Murau: Reallabor der Energiewende für inneralpine Regionen
Das # Reallbor Murau treibt mit einem kooperativen Ansatz die Region Murau als 100% erneuerbares regionales Systemkraftwerk voran. Ziel ist es, einen möglichst hohen Nutzungsgrad an erneuerbarer Energie in der Region selbst zu schaffen und gleichzeitig Überschuss-Energie bedarfsgerecht zu exportieren.
Innovationslabor INNERGY (Tirol): Reallabor für 100% erneuerbare Energie mit Fokus auf optimierte Wärmeversorgung
Als „Enabler“ soll das INNERGY InnoLab Umsetzungsprojekte für die Energiewende entwickeln, beschleunigen und begleiten, Erkenntnisse sichern und als Multiplikator in die breite Anwendung bringen.
Leitprojekt ErneuerbaresWald4tel: 100% Erneuerbare durch regionale Sektorkopplung von Strom, Nah- und Nachbarschaftswärme und Mobilität
Leitprojekt des Reallabors 100% Erneuerbare Energien Waldviertel zur Erforschung der Nutzung von Flexibilitäten in und zwischen unterschiedlichen Energieträgern und netzen und Anwendungen zur flächendenkenden Versorgung mit volatilen erneuerbaren Energiequellen.
Reallabor 100% Erneuerbare Energie Waldviertel
Das 100% EE Reallabor Waldviertel hat es sich unter dem Motto “Wir helfen den Menschen Ihre (Energie-) Zukunft zu gestalten” zum Ziel gesetzt, Lösungen zu entwickeln, um das Waldviertel in den nächsten Jahren zu 100 % mit erneuerbaren Energieträgern zu versorgen und bis 2035 klimaneutral zu werden. Dazu werden die im Leitprojekt EneuerbaresWald4tel erarbeiteten Ergebnisse durch das Innovationslabor 100% EE Waldviertel praktisch umgesetzt.
Innovationslabor 100% erneuerbare Energie Waldviertel
Das InnoLab W4 schafft die materiellen und immateriellen Rahmenbedingen, um Modellösungen für eine 100 % erneuerbare Energieversorgung gemeinsam mit den NutzerInnen zu entwickeln und real zu testen. Anwenderorientiere Wissensvermittlung, Aufbau von FTI-Infrastruktur, Validierung von Systemlösungen, und Mobilisierung der Stakeholder stehen dabei im Mittelpunkt.