Projects within the framework of open4innovation

Klimaneutrale Stadt

The project aims to enhance the availability and integration of BIM data, ecological parameters, and other relevant information into the workflows of the green sector. To achieve this, a web-based application with suitable interfaces will be developed. The foundation for this is a detailed requirement specification, which will be established through interviews, workshops, and research, linking the individual components of the application.

Stadt der Zukunft

First comprehensive data collection of installed green roof and green facades in Austria and exploration of current challenges and future growth potential für green roof and walls applications involving all stakeholders within the green industries value chain.

Klimaneutrale Stadt

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.

Klimaneutrale Stadt

Green and blue infrastructure (GBI) is a key instrument in the fight against climate change. Nevertheless, deciding where and in what form it should be used most effectively remains a challenge in spatial planning practice. The development of a digital model that links location-specific climate risk data with suitable GBI measure proposals will make this much easier and more objective.

Haus der Zukunft

High value energy efficient refurbishment of an ensemble of three neighbouring Wilhelminian style buildings in a non-lucrative location.

Haus der Zukunft

Development of a portfolio management tool for the administration of real estate technical data and to support the decision-finding process related to renovation of "Gründerzeit" buildings. The management tool will be applied in practice, in the demonstration projects implemented within the flagship project "Innovative Modernisation of Wilhelminian style "Gründerzeit" Buildings". The results will be available in the form of check-lists and guidelines applicable in the decision-finding process related to renovation measures.

Haus der Zukunft

This flagship project is focusing on buildings from the late 19th and early 20th century ("Gründerzeit") with typically decorated façades.

Klimaneutrale Stadt

In urban areas, the heat supply and cooling of buildings is one of the key challenges in the course of the energy transition. With HEATbucket, a structural engineering solution is to be investigated for the realisation of underground heat storage in built-up areas. In addition to the technical challenges, the focus is on the general feasibility and the impact on the subsoil and groundwater.

Stadt der Zukunft

HEDWIG aims for the assessment of effects from green roofs and facades on buildings by using monitoring data referring to microclimate and building physics. The objective is to define validated vegetation parameters and performance indicators on indoor and outdoor level and on microclimatic relevant street space level. Standardised indicators, evaluation and analysis procedures will be elaborated.

Klimaneutrale Stadt

Analysis and evaluation of the effects and cost-benefit ratios of synergetic measures with regard to overheating and heavy rain in cities. Based on this, an implementation plan will be developed for a subsequent demonstration in Feldbach, which can be used in many similar cities.

Klimaneutrale Stadt

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.

Ressourcenwende

In industrial production for alpine skis, epoxy resins of fossil origin and pre-impregnated glass fiber reinforcements are processed today. Innovations that replace environmentally critical materials in skis with biogenic substitute materials with an improved environmental balance have so far been limited to the production of small series. This circumstance motivated the consortium to develop a solution for a circular bioeconomy with the HempSki project, which will also make industrial ski production from renewable raw materials and waste streams possible in the future.

Haus der Zukunft

The refurbishment of existing building stock demands solutions within single units. Interior insulation is a suitable technology. The challenge is to bring multiple demands and requirements together to create optimal solutions. Therefore it's necessary to arrange individual system components to form working model refurbishment solutions. The development of such solutions is the aim of the project. Not only durability and quality is to be ensured, but also user acceptance. Increasing the rate of refurbishments is the overall aim of the project.