Projects within the framework of open4innovation
There are 1278 results.
MaBo - material saving in bored piles - a contribution to reducing CO2-emissions in the construction industry
Development of an innovative method for saving material in bored piles in order to reduce CO2 emissions in the construction industry. By optimizing the construction methods and using alternative materials, the sustainability of the foundation bodies is to be improved.
Maize Cob Board (MCB) - Light weight material from agricultural by-products
Maize cobs accrue as an agricultural by-product can be used for a core material of light weight panels with good material properties and insulation characteristics. The aim was to work out a concept for the production and optimisation of material properties.
Manage_GeoCity - Development of a method for the coordinated management of geothermal energy in urban areas
Based on the urban region Graz a method had been developed for the coordinated use and management of shallow geothermal energy for heating and cooling as well as seasonal heat storage in urban regions. Ground water flow, different geologic conditions, heating and cooling demand, heat input from solar collectors and industrial waste heat and the possibilities of seasonal heat storage in the subsurface were considered.
Mapping of IEA TCPs
The intention of this project was to visualize the current activities of the IEA Energy Technology Network and to identify possible gaps and overlaps. The mapping includes 185 ongoing tasks and annexes (Status September 2017).
Market survey of energy storage technologies in Austria (MSSP2020)
Stationary battery storage devices for the maximisation of the private consumption in PV-systems, large heat storage for local and district heating systems, thermal activation of buildings and the area of innovative storage systems have been chosen for the first market survey within this project. The historical market diffusion of these technologies is surveyed empirically and documented up to 2020.
MasSan - Feasibility study of serial renovation concepts & models in Austria
Feasibility study to present and analyze the framework conditions and potential of serial renovations of large-volume buildings. The findings from the national pilot projects as well as the international / German projects and models are extracted and checked for their feasibility in the Austrian context and the requirements are prepared.
Material utilization of end-of-term textiles
Mechanical processing of the non-reusable part of collected end-of-life apparels (e.g. cutting, sifting, etc.); development of marketable application for the obtained short fibers in the field of construction materials (e.g. bitumen modification)
Matroshka Austria - Cosmic radiation exposure during extravehicular activities onboard ISS
The ESA Matroshka experiment was launched to theInternational Space Station (ISS) with a Russian Progressfreighter on January 29, 2004. The cooperation of 15 laboratoriesaround the world makes it the most extensive research effortin radiation dosimetry ever performed in space. The facility is aimed to simulate an astronaut’s body during an extra vehicular activity.
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.
MehrWertStrom 2030 - PV-Community system - Exploring a participatory pilot project with regional added value for structurally weak regions
The "MehrWertStrom 2030" project analysed the legal, technical, organizational and economic feasibility of PV community joint venture facilities on multi-party buildings including the added value for structurally weak regions and developed innovative solutions related to organization, financing and realization.
Metallic Melts 2 - Electrical Resistivity Measurement of High Temperature Metallic Melts - 2
This project has directly continued the research done in the frame of its preceding project "Electrical Resistivity Measurement of High Temperature Metallic Melts". Unlike its predecessor, it focuses on the measurements of alloys. The pulse heating setup at TU Graz serves as a benchmark for the results obtained from the levitation setup of DLR. The latter is designed to be carried out in microgravity environment. At this stage, parabolic flights with prototypes prepare for a future mission aboard the ISS.
MicroColumbus - Effects of the Space Environment and Microgravity on Cells of Halophilic Archaebacteria
Following the successful installation of the Columbus laboratory on the International Space Station (ISS) in February 2008, the ESA facility EXPOSE-E was used to compare the adaptation and survival strategies of microorganisms from different terrestrial habitats. Several extremophilic microorganisms were tested, including the halophilic archaeon Halococcus dombrowskii, which was isolated from a 250-million-year-old Alpine salt deposit in Austria. Samples were returned after 18 months of exposure tothe space environment.
MinoLab - A mini lab the size of a credit card
Diagnosing diseases quickly and easily: a magnetic biochip makes it possible. Because conventional diagnostics can be too slow for those affected.
MoVeTech - Model-Based Processing Technique for the Manufacturing of High-Quality Structural FRP Components for the Aerospace Industry
It is within the MoVeTech project that the concept of model-based processing technology was first implemented in the ARTM (Advanced Resin Transfer Moulding) process. This concept is based on the idea of combining phenomenologically based know-how about relevant mechanisms (heat conduction and transfer on moulds and composites, flow processes during mould filling or curing kinetics of reactive resins) in the form of mathematical models, and making them available at the level of process management - while adhering to real-time requirements.
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.
Monitoring Passive houses China
Monitoring of office building and guest house in ZhuoZhou, China
Monitoring Sunhouse Eferding
In course of the monitoring project the effectiveness of the energy-technical system was checked on the basis of running measuring data. The data were evaluated and, if required, the arrangements and settings of the control system were adapted. Main result is that the energy balance could have been improved explicitly whilst the monitoring process.
Monitoring of multi-family houses “Tonpfeifengasse”
Evaluation of activated building parts as heat storage for renewable energy shown on the example of the multi-family houses "Tonpfeifengasse".