Suchergebnisse
sustAIn4Build - AI competence for sustainable building management in climate neutral cities
The objective of the project sustAIn4Build is to increase energy efficiency and sustainability in the building sector by using artificial intelligence (AI). Industry-specific training programs support Austrian companies to develop a workflow for integrating AI technologies into their processes, enabling them to develop resource-saving, cost-effective and sustainable solutions. This strengthens their competitiveness and contributes to the achievement of European decarbonisation goals.
AnergieLeichtGemacht - Development of Scalable Implementation Models for Geothermal Anergy Networks to Decarbonize the Building Sector
The project develops standardized technical, organizational, and financial implementation models for anergy networks to enable sustainable heating solutions in cities and municipalities. By identifying suitable settlement typologies, analyzing existing framework conditions, and engaging stakeholders, scalable solutions are created. The goal is to reduce planning and implementation barriers and facilitate investments in local anergy networks.
FavoriteFlows – Innovative solutions for water and energy cycles in buildings for a climate fit city
Demonstration of detailed planning work and implementation of water cycles (building-integrated constructed wetland wastewater treatment) and energy cycles (wastewater heat exchanger) on a large residential apartment development for climate resilience, resource efficiency and high living standard.
ReSpace – Reclaiming Spaces
ReSpace is developing an AI-based model for identifying, categorizing, and activating sealed areas. Existing data sources (aerial and satellite images, mobile network data, land registry entries) are integrated and enhanced with dynamic analysis to derive evidence-based recommendations for action.
RCC2 - Life cycle assessment of heatable formwork for CO2-reduced and climate-neutral concrete
Experimental development of innovative formulations of CO2-reduced concrete and heated formwork to support early strength development in wintry temperatures.
StirliQ+ Component development of the expansion Stirling generator with supercritical fluid as working & lubrication medium
Technical research and further development of details or components of the novel StirliQ engine, which has the potential to overcome the technical hurdles of conventional Stirling engines. On the basis of simulations as well as a laboratory plant, a narrowing down of the process parameters with regard to a resilient pre-dimension of apparatus components is carried out.
Clay - Passiv Office-Building Tattendorf
The motivation for developing the project "Clay Passiv Office-Building Tattendorf" was the dissatisfaction with the situation of a great difference in the state of technology in three fields relevant to the research project: 1) sustainable production of energy , 2) sustainable energy conservation technologies and 3) use of sustainable building materials.
e80^3-Buildings - Sub project 3: Development of technology and components
The main objective of the key project "e80^3" was to develop high-performance renovation concepts focusing on plus-energy-buildings. Afterwards these concepts were realized in at least one or two demonstration-projects.
PHplusCAD, IT-based efficient Passive house- and Plusenergy house-Planning
Elaboration and programming of a software that reduces effort and time consumption of Passive house and Plusenergy house planning. By developing direct interfaces between CAD-applications and PHplusCAD and interfaces between PHplusCAD and Passivhouse planning tools based on MS Excel the system could be improved and the related working processes alleviated.
S-House: Planning and Building for the future
The S-House is a two-storey straw-bale passive solar design. The building shell demonstrates the potential of straw-bale building and shows the whole spectrum of technical solutions for competitive components made of renewable resources.
WHISCERS. Whole House In-Situ Carbon & Emission Reduction Solution
Whiscers is a system for installing internal wall insulation with minimal mess, whilst the resident remains in the property. It involves measuring the walls in the property using a laser device that enables fast and highly accurate measurement. Information is then sent electronically to a computer controlled off-site cutting machine that is rapid, precise and mess-free.
CellPor - cellulose polymerized - new methods for the processing of a polymer-cellulose-foam according to ecological criteria in construction
The development of a spray applicable cellulose composite as insulating material on the basis of renewable resources, combined by the development of a prototype for the spray-on technology for processing the new, water free cellulose composite are the demanding challenges of this project.
Facade Collectors
Development of technique and components for the production of back ventilation-free thermal flat collectors.
Mechanical ventilation system for windows for the renovation of old buildings
Analysis and implementation of alternative ventilation systems for windows, focusing on thermal renovation of old buildings. The investigated ventilation systems were presented to an expert group. The aim was to discuss ventilation technologies with the help of different aspects and to develop a SWOT analysis.
FM.Comfort/FM.Ware - Software for optimizing the use of energie and other resources in the virtual house
The expert system FM.Comfort/FM.Ware realizes the so called virtual house (vh). The virtual house is the computer model of a real building. This computer model supports the optimization of the use of energy and other resources by analysis of the life and work habits of the residents and the positive influence on inhabitants-behaviours (user motivation).
S - House
Innovative Use of Renewable Resources demonstrated by means of an Office and Exhibition Building
Solar Adsorption cooling system of residential and office buildings (SunSorber)
In the on hand project an adsorber/desorber for a solar operated/district heating operated one-level adsorption chiller with water as cooling agent and silica gel as adsorbent agent will be planned for a low range of performance (2 to 50 kW refrigerating capacity). It will be implemented as a test-/pilot plant. Hence these two substances are an alternative to the HFCKW´s cooling agents that are used nowadays.
Serial refurbishment for buildings in timber construction
Refurbishment of single- and two-familiy houses in timber construction in Austria has a large CO2-saving potential. To meet the special requirements for the refurbishment of timber constructions, a concept for the renovation to passive house respectively plus-energy house standard with special focus on ecologic construction materials was developed in this project.
Fundamentals on the development of ecological high class insulation composites made from natural plant fibres
Fundamentals on an insulation made from flax and hemp fibres which can be directly pargeted on the outer wall of a building had been developed. Only ecological glues and additives were used. Variations of the production and the additives optimized the technical properties. In addition flame proofing and thermal transfer were tested. After the laboratory tests a prototype finished the project.