Projects
There are 85 results.
Wärmezukunft Steyr - Innovative Models for Climate-Neutral Heat Supply in Steyr
The project aims to establish the foundation for a climate-neutral, socially inclusive, and economically viable heating and cooling system in a pioneer city. It combines technical planning with governance approaches and the development of business and operator models. A special focus is placed on anergy networks, which - despite high upfront investments - offer strong potential for low-temperature, dual-purpose heating and cooling supply.
cityclimAIte - Study on AI applications to achieve and support climate-neutral cities
The central task of this study is to provide decision-makers with a comprehensive overview and to derive recommendations for the efficient use and benefits of AI based on the estimated effects. The aim is to strengthen national value chain in this field of technology through appropriate, supportive framework conditions.
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.
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.).
reSOILution - Utilization of excavated soil for the production of earthen building materials
Excavated materials generate large amounts of waste and represent a key lever for resource conservation and waste reduction in the construction sector. The reSOILution project explores how excavated soil can be circularly processed into earthen building materials to reduce CO₂ emissions and promote a sustainable construction industry.