Projects within the framework of open4innovation
There are 463 results.
Build4Climate - Demonstration building with a climate room concept at the Innovation Quarter Lavanttal in Carinthia
Near the Wörthersee in Carinthia a modern open-space research and office building with flexible use is being built on the site of Lakeside Science & Technology Park GmbH. The innovative building will be implemented as a frontrunner with a 'climate room' concept based on thermal component activation and extensive use of renewable energy sources.
Building of Tomorrow for the construction industry
Dissemination of results of the research initiative "Building of tomorrow" for two specific target groups - master builder and installer - implementation in further vocational training concepts
CELL4LIFE - Reversible SOCs as a link between electricity, heat and gas networks to increase the self-sufficiency and resilience of neighbourhoods
A system consisting of a solid oxide fuel cell and a Machine Learning-based control system for increasing efficiency and minimizing degradation is being developed. As a link between all energy supply networks, the system is intended to increase the self-sufficiency and resilience of plus-energy districts.
CEPA-Connect
The CEPA energy facade is an innovative building refurbishment system with an external active energy level. The aim is to revolutionize the refurbishment market. The development of the system focuses on holistic solutions for the thermal-energetic refurbishment of buildings.
CEPAM – Circular Economy Powder for Additive Manufacturing
In the CEPAM research project, a recycling process for high-quality metal powders for additive manufacturing is developed. Various methods of energy input are being evaluated for energy efficiency, scalability and powder quality and built up on a pilot scale. The recycled metal powder is characterized and processed in the Laser Powder Bed Fusion process. In order to compare the mechanical properties of the printed components, parts are printed from both new and recycled powder.
CHALLENGE - Highly efficient use of hot gas and waste heat in air/water heat pumps for plus-energy buildings and quarters
CHALLENGE aims to further develop the system concept for air-to-water heat pumps in such a way that they can be used efficiently and without the above mentioned negative effects in densely built-up urban areas. In concrete terms, validated simulations and a functional model of the overall system on a laboratory scale are to be used to demonstrate that the concept can save 10% of electrical energy, reduce the noise of outdoor units in summer to a minimum and prevent the formation of local heat islands.
CICA - Chlorella in circular aquaculture
Project CICA allows the detailed investigation of fish wastewater and its treatment by algae cultivation, as well as the design and construction of a special photobioreactor to purify wastewater and produce fish at the same time.
CO2 free Deutschlandsberg 2040
The city of Deutschlandsberg has set itself the goal of becoming climate-neutral by 2040 and is developing a climate neutrality roadmap to ensure climate-resilient urban development. This plan is also intended to combine the expected population growth, due to the commissioning of the Koralm railway at the end of 2025, while maintaining a high quality of life.
COOL-QUARTER-PLUS - GHG-neutral cooling of office and research quarters
Development of systems for the emission-neutral cooling of office, research and urban quarters on the basis of photovoltaic or geothermal energy supply and user integration. Life cycle cost calculations and analyses of grey and operational greenhouse gas emissions allow a holistic assessment.
CircuPack - Recyclable materials for food packaging with a low ecological footprint
The goal of the project is to develop sustainable and environmentally friendly food packaging with an improved ecological footprint. It is important to develop a new process control that ensures both food compatibility and the sustainability of the resulting product.
Circular Bio Floor- Floor construction made from biomaterials
In this project biogenic building materials from wood industry waste and geopolymer binders are developed that can be used as tamped fill or 3D-printed dry-screed elements in timber construction. These materials offer functional benefits and an excellent eco-balance, contribute to the conservation of forests and enable the production of separable and reusable floor segment panels using digital manufacturing technologies. That significantly reduces the consumption of primary raw materials.
Circular Design - Getting from theory into practice
The project aims to provide recommendations for areas of action and measures that should promote the widespread use of circular design in Austria. For this purpose, the status quo of circular design in Austria is surveyed based on the circular design rules, obstacles for implementation are identified and best practice examples are presented.
Circular Twin - A Digital Ecosystem for the Generation and Evaluation of Circular Digital Twins
By 2030, more than the equivalent of two Earths will be needed to meet the demand for natural resources, therefore a transition to circular systems is essential, especially in the construction industry. The digital "Circular Twin" ecosystem enables the early implementation of circular economy goals as well as end-to-end digitalization in construction utilizing Digital Twins, Generative Design Algorithms and Virtual Reality.
CircularBioMat – Recyclable biogenic materials for building installations and supply equipment
As part of CircularBioMat, numerous bio‐based materials – including bio‐polymers reinforced with natural fibers as well as recycled materials – are being tested for their suitability as a replacement for the petroleum‐based polymers that dominate technical building installations (TGA) and supply equipment.
CircularBioMaterials
ParaStruct GmbH explores the technical and economic possibilities of recyclable, mineral-bound biomaterials in the project. The result is a basis for further development work and investments in this area.
CircularFood - High-quality products through cascading recycling cycles of residual materials from the food industry
The CircularFood project investigates the material and energetic cascading use of organic food residues from Austrian food production. The aim is to develop innovative processes for the extraction of high-quality protein components, liquid biofertilizers, organic plant substrates and peat substitutes in order to promote the circular economy and reduce CO2 emissions.
City – Country – Climate: Four districts, one joint roadmap for a climate-neutral Gratwein-Straßengel
The aim is to initiate a structured and effective path towards climate neutrality 2035+ in the market town. In the context of the project, climate neutrality includes the topics of neighbourhoods and buildings, mobility and energy.
Climate Pioneer City Graz (KPS_Graz)
As an integral part of the ongoing Climate Change Mitigation Plan Graz process, the Climate Pioneer City Graz project with the Federal Ministry for Climate Action, Environment, Energy, Mobility, Innovation and Technology (BMK) will make a noticeable contribution to ensuring that the planned local processes and measures to achieve climate neutrality are implemented more quickly. This will be achieved primarily through the financing of additional climate protection experts in the city administration.
Climate Pioneer Districts Graz (KPQ Graz): Preparation of the climate-neutral districts ÖBB Eastern Railway Station and Smart City North-West
The Climate Pioneer Districts Graz (KPQ Graz) project is preparing the development of the districts "ÖBB Eastern Railway Station" and "Smart City North-West" in Graz towards climate neutrality. Based on the lessons learned of the evaluation of the already realised district "Smart City Graz", an innovative district concept is being created for the infrastructure topics of energy, mobility, green/open space and social sustainability. The central goal of the exploration is the subsequent realization of at least one of the two pilot quarters.
Climate Plan Spittal - Development of a climate neutrality roadmap for the city of Spittal an der Drau
The City of Spittal/Drau is already addressing the challenges of the future in many areas and through numerous initiatives (e.g. as part of a KEM and KLAR region, as an e5 municipality, with the adoption of a climate and energy mission statement in 2024, etc.). The city aims to maintain the quality of life both locally and regionally, and to continue ensuring high-quality urban living, working, and economic spaces. It recognizes that achieving this requires short-, medium- and long-term strategies across all climate-relevant sectors.