Increase of in-house consumption by building clusters and active storages (Eigenlast Cluster)

The project involved the evaluation of the significance of new appro­aches for the increase of in-house consumption of solar energy (electric energy and heat) of buildings in Großschönau, which are already equip­ped for such measurements. The existing municipal buildings, commercial buildings and households are aggregated to form virtual building clusters. Subsequently, the clusters were analyzed according to their in-house consumption with and without the usage of batteries and H2 storages. The economic analysis of this concept derives from a regional implementation plan for further industrial re­search.

KLIMUR: climate-resilient urban resource management for the case study of Zukunftshof and Rothneusiedl

For the concept of the Zukunftshof, an innovative urban agriculture area, development scenarios for an integrated energy and resource cycle system are to be developed using optimisation tools and parametric design studies. A roadmap consisting of technical concepts and a coordinated financing strategy will provide the basis for a demo project that demonstrates in practice how the Zukunftshof can be the starting point and basis for resource-efficient and climate-resilient urban development.

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.

e80^3-Buildings - Sub project 5: Monitoring and dissemination

The content of subproject 5 was the analysis of energy- as well as building-biology-related issues for the evaluation and quality management of the demo-project in Kapfenberg, which involves a high-quality refurbishment to a plus energy house within the program "Haus der Zukunft - Building of Tomorrow". Within this process the user acceptance before, during and after the renovation was elevated and this will be processed for upcoming projects. The environmental quality of the building regarding the choice of materials and measures during the construction phase and the subsequent use of the building was assessed with the help of the TQB-planning and evaluation tool.

Product and system development for an inside thermal insulation construction of historical houses using magnesite bonded wood wool panels

The objective of this project is to examine the ability of magnesite bonded wood wool panels as an inside thermal insulation system, especially for houses with historical facades and to acquire starting points for further development of the products and components being used. Parallel to the data which will be calculated in a theoretical FEM-model, a field trial will be carried out to prove the influence on the inside room climate. In addition the sustainability of the system will be analysed.

Model Predictive Control of Thermally Active Building Systems and Monitoring of two Test-Boxes

A robust, predictive controller which utilises weather forecast data to control thermally active building systems had been designed, researched and assessed in terms of energy efficiency and comfort compared to standard controllers, especially for cooling purposes. Simulations and real measurements using two "Test-Boxes" with thermally active building systems which are constructed and built for this purpose were used to analyse energy efficiency and comfort. Low complexity and transparency of methods and solutions should allow for transferability of all results to guarantee maximum usability for similar applications.

DALEC - Day- and Artificial Light with Energy Calculation

In the course of DALEC an online concept evaluation tool for architects, building engineers, lighting designers and building owners was developed. Although easy to use, the software accounts for the complex thermal and light processes in buildings and allows a simple evaluation of heating, cooling and electric lighting loads. Not only energy, but also user behavior were considered (e.g. in terms of glare protection) and visual and thermal comfort were evaluated. This novel and innovative, holistic approach makes sustainable and energy efficient building design possible for new buildings as well as refurbishment.

SocialLowCostFlex - Collaborative flexible low-cost energy supply concepts for social housing

This project aimed for feasible low-cost solutions, which allow residents of multi-party houses, with special focus on social housing to profit and participate in the energy transition process and associated trends (e.g. community generation units, exploitation of flexibility). The results of the project are low-cost concepts and business models of community generation units and utilization concepts, tested for their feasibility in a social housing complex. These concepts are based on special requirements of different lifestyles in low-income households and take the framework of social housing such as tenant fluctuation into account.

REGOreal - 100% Renewable Energy Region: Local Energy Common Good Economy in real laboratories for networked energy and mobility cells

In REGOreal, the exploration for a 100% renewable energy region in the area of Retz-Horn-Krems-Tulln (Lower Austria) and Mallnitz (Ktn) is taking place. There are four focus topics: 100 Renewable Energy Communities (REC), 1.000 building renovations, 10.000 energy exporters (in the sense of employees who carry the approach into their private environment) and 100 Mio. km of sustainable mobility with extensive use of IT for the development of local integrated energy systems (IES) to integrate a colorful mix of different actors and objects.