Projects within the framework of open4innovation
There are 463 results.
OptoControl - Modern sensor systems for energy conservation in buildings
The necessary efficiency of modern energy-self-sufficient buildings can only be achieved with intelligent control of the key parameters. The main focus of the project is the adaptation of optical sensor concepts for application in building technology. The future goal of the project is to supply the modern energy-plus-house with an appropriate and intelligent control device to minimize energy loss.
PDCA4Future - Feasibility Study for a Climate-Resilient Urban District in Bruck an der Mur through a New Planning and Financing Approach
Using the Hannes-Bammer-Sports Hall as a case study, the PDCA4Future feasibility project in Bruck an der Mur aims to develop an innovative planning and assessment tool. This involves creating renovation and financing models that align climate neutrality goals with sustainable urban planning. The objective is a fact-based and replicable investment decision (renovation vs. new construction).
PET2More - Biotechnological upcycling of PET plastic waste as a contribution to the gradual reduction of petroleum-based raw material dependency
The aim of the PET2More project is to develop a biotechnological process for upcycling PET plastic monomer waste. To this end, previously unknown and unavailable decarboxylase enzymes for the conversion of terephthalic acid and 2,5-furandicarboxylic acid into valuable chemicals such as benzoic acid and furan-2-carboxylic acid are to be identified, characterized and optimized by means of enzyme engineering.
PHOTOVOLTAIC WATER Solution
Passive House refurbishment facade with integrated photovoltaic modules for direct, current-based warm water preheating. The GIWOG, an energy-conscious and environmentally and socially oriented client, intends to undertake an energy-related modernisation project, which will further optimise energy consumption to be more efficient at an apartment complex in Graz, main street 302-306. The goal is to lower the energy consumption for heating and hot water from the current level of approximately 135 kWh /m²a to approximately 8 kWh /m²a. The planned measures should correspond with an overall energy consumption reduction of approx. 94 %.
PVReValue – Holistic recycling of photovoltaic modules
The PVReValue research project is pursuing a new approach to the holistic recycling of photovoltaic modules, based on an innovative multi-stage composite separation process that is being developed in the course of the project. The multi-stage separation process and the novel combination of modern treatment processes are expected to achieve a recycling rate of more than 95 wt.-%.
Path to the Future (WEG zur Zukunft) - The Path to Implementing a Climate-Resilient Future in Condominium Ownership
The research project "WEG zur Zukunft / Path to the Future" examines the low renovation rates of condominium owners' associations (WEGs) in Austria and the associated communicative, regulatory, organizational, and financial challenges. In collaboration with the affected stakeholders – primarily owners and property management companies – foundations for solutions are being developed through a co-creative process that can assist in the path toward implementation.
PersonAI - User-Centered AI-based energy services built on personal preference models
Conduct a large-scale, long-term study with 40-50 people to create personal comfort profiles to increase comfort in buildings. The personal comfort profiles will then be fed back into the building control system as input variables in a proof-of-concept.
PhaseOut – Heat pump technologies in the renovation of existing buildings
The aim is the conception, optimization, implementation, demonstration and evaluation of innovative, minimally invasive renovation solutions (thermal renovation and heating system replacement) with heat pumps and PV in multi-storey buildings on seven identical buildings. The comprehensive comparison includes various technical solution variants based on modular and scalable building technology systems as well as multifunctional building components for the exchange of decentralized gas heating by central, semi-central and decentralized heat pump solutions.
Pioneer City - Partnership for Climate Neutral Cities 2030
With its participation in the "Mission:Klimaneutrale Stadt", the City of Innsbruck is pursuing the goal of setting the course for achieving climate neutrality. In addition to the creation of structures within the city administration, climate-effective measures are being tested in the existing "Eichhof"-residential quarter together with the stakeholders. Successful measures shall then be implemented throughout the city. The intensive exchange with the other pioneer cities, the conscious use of synergy and the associated broad spectrum of knowledge and experience are necessary resources for the implementation of this project
PioneerCityDornbirn - Transformation of the city of Dornbirn towards a climate-neutral city.
The project "PioneerCityDornbirn" aims to transform the city of Dornbirn towards climate neutrality. Internal competencies are being developed, processes are being improved, and initial implementations are being driven forward to support the decarbonization of the city by 2040.
Plan4.Energy – methodological set for the planning support of positive energy districts
Plan4.Energy develops a set of methods to support the planning of positive energy districts. The data-based system integration will enable a user-friendly quantitative assessment of the possibilities for building a positive energy district. This will allow stakeholders without the relevant background knowledge to realistically assess different project variants.
PlusIQ - Agricultural Photovoltaics: Integration as a Path to Plus-Energy-Quarters
This project examines opportunities, potentials and requirements of/for Agrophotovoltaic systems. Thereby, an interdisciplinary study will be conducted that integrates the major aspects of such systems holistically and from an integrative perspective. The complex interdependencies between the different aspects will be explored and described via a case study. Potential approaches toward realization will be studied and subjected to a comprehensive SWOT-analysis.
Poly2Facade - Innovative thermal self-regulating solar facades by means of functional polymers
The overall objective of the present project is to develop and implement an optimal overheating protection system based on polymeric materials. The aim is to reduce maximum room temperatures in buildings caused by facade integrated solar-thermal collectors in stagnation.
PolyBacTex - Converting mixed textile waste into recycled fibres and cellulose for sustainable production
The project PolyBacTex is developing a solution for recycling of used mixed textiles by chemically separating and biotechnologically upgrading the individual fibre types (cellulose and polyester). This allows cellulose fibres to be recovered and returned to the fibre production process.
ProKlim+ - Use of Model Predictive Control to optimize solar power consumption in case of increased energy efficiency.
Using weather forecast for building automation can help improving the energy efficiency of buildings and, thus, saving energy. In the project ProKlim+ the forecast of solar radiation will be used to optimize the building automation to satisfy the needs of the building users, and at the same time to minimize the energy demand on the one hand and to maximize the consumption of self-produced energy on the other hand.
Production of bioethanol from lignocelluloses using steam explosion
By means of suitable thermomechanical pretreatment a process for the production of bioethanol on the basis of the waste compounds straw and wood will be developed. Regional plants will use local raw materials for local energy production.
Programme Evaluation of "City of Tomorrow" 2013 - 2021
This evaluation examined the effects that the "City of Tomorrow" programme has achieved since its inception. The evaluation is based on extensive surveys of research project participants and various multipliers from application areas such as civil engineering and urban planning. The evaluation thereby creates an important basis for the design of future research funding.
ProzesSan - Development of processes to increase the decarbonisation and refurbishment rate in the housing sector
The project aims to assist owners of large property portfolios with the challenges of refurbishing their buildings. The first step is to identify the various obstacles and develop appropriate solutions. These will be tested in three workshop phases with the owners, and a workshop manual and guidelines will be developed.
Q2NEB - Transformation of quarters according to criteria of the New European Bauhaus
New European Bauhaus, Green Financing, energy transition and climate change adaption – the qualification network Q2NEB prepares Austrian enterprises for upcoming challenges and chances concerning the transformation of quarters to sustainable, inclusive and aesthetic neighbourhoods.
QB3R – Quality controlled high‐performance components consisting of 100% bio‐based resins with high potential in repair and recycling
The QB3R project aims to develop an epoxy resin system having a 100% bio‐based carbon content. The QB3R resin will be processable with various different manufacturing techniques resulting in high performance components for long‐lasting material goods.