Suchergebnisse
Cool Windows - Windows with shading optimising the trade-off between summery overheating, wintery heat protection and adequate illumination
Windows with their associated components such as sun and glare protection are optimised as a holistic building equipment unit regarding different seasonal requirements in light of the climate crisis. The results serve as a basis for new developments in the window and shading technology in order to provide summery and wintery heat protection as well as adequate natural illumination over the year.
SonnWende+ Efficient solutions for photovoltaic energy management based on block chain technology
The project deals with the analysis of Blockchain technology in the context of renewable electricity producers and flexibility as enabler for innovative service concepts, tested in the innovation-lab “Energie Innovation Cluster Südburgenland”. The goal is to find new and efficient Blockchain-based solutions for services in energy management and trading in a local level.
THERM-opti-BALCONY: Thermal Optimized Renovation of Balconies
Pre-cast cantilever balconies represent a particular problem in the thermal renovation of buildings. The central goal of this project is the development of practical and cost-effective mounting solutions for the thermally decoupled reconstruction of balconies on building frontages and achieving a significant increase in the energy performance of the thermal renovation measure.
Photonic Cooling – Efficient cooling of buildings through the use of photonic
Within the scope of the project a photonic cooling approach was investigated and evaluated in terms of feasibility and cost efficiency for building applications. In particular cost-efficient photonic surfaces and concepts were investigated which need to have a high reflectivity in of the incident solar radiation (>97%) and a high emission coefficient within the spectral range of 8 – 13 micrometer in order to enable the emission of heat into the sky.
FIVA - Window prototypes with integrated vacuum glazing
This project targets the further development of windows with integrated vacuum glazing. Such glass products regularly feature a very low Ug-value, and their dimension is in comparison to insulation glass thin and light. As such, these products offer a new alternative for highly-insulating window constructions, and thus also for energy-efficiency measures in buildings. The project is based on the findings of a previous exploratory project (MOTIVE) and focuses on the construction of functional prototypes of vacuum glass windows together with business partners.
Beyond - Virtual Reality enabled energy services for smart energy systems
Collaborative R&D project to develop the next generation energy services with the interplay of various technologies: Virtual Reality (VR), machine learning, physical simulation and Internet of Things (IoT) platforms.
THERM-opti-BALCONY-P2 - Thermal Optimized Renovation of Balconies Phase 2: In-Situ-Pilot-Station
Pre-cast cantilever balconies represent a particular problem in the case of thermal rehabilitation of buildings. With the THERM-opti-BALKON-System a solution is currently being investigated under laboratory conditions. Phase 2 aims to create an in-situ-pilot-station. The most important object of study is the long-term behavior of the THERM-opti-BALKON-System.
SPIDER - Subtraction as a measure to Preserve and Insulate historic Developments by Electric Robots
The purpose of this exploration is to unlock the potential of autonomous, data-driven robots that achieve improvements of the thermal building performance through air entrapments in a continuous process.
3D*3B - 3D-Concret Printing, Reinforcement for low carbon and bending stressed structures.
The project is about 3D printed structural elements and their integration in building structures. The focus is predominantly set on bending stresses structural elements like panels and slabs. Results will point out technical, logistic and climate relevant aspects.
VAMOS - Casement windows with vacuum glazing: Performance-Monitoring for Building retrofit
Knowledge consolidation of the exploratory project VIG_SYS_RENO; This project focused on the application of vacuum glass in existing casement windows for purposes of energetic performance improvement of buildings. Expected results include new insights about and a guideline for the application and utilization of vacuum glass products in existing window systems.
LINE-FEED - Plug-in Photovoltaic Storage for the Wall Socket
The project LINE-FEED develops technologies that are required for a photovoltaic storage system which can be installed by anybody by simply plugging it into a wall socket. The aim is to create a storage system for households in urban areas that do not have the possibility to install a photovoltaic system themselves.
HotCity - Gamification as a possibility to generate data for energy-oriented neighbourhood planning
The aim of the project was a functional test to determine whether an up-to-date data set of energy-oriented data can be collected for neighbourhood planning through gamification, cost-efficiently, quickly and reliably. This had been determined using the example of the potential determination of industrial and commercial waste heat sources in Vienna and Graz.
IÖB-ENERGY - Public procurement for intelligent urban energy solutions
Assessment of the potential for pre-commercial procurement in the Smart City energy sector in Austria in the areas of innovative building technologies, urban energy systems and systems for urban planning. The results will serve as the basis for recommendations for future priority setting for public procurers.
metaTGA - Metadata and process models for open BIM in building service engineering
The objective of this research project is to design a methodology for developing data and process models and to apply them by modelling selected MEP systems. A particular but not exclusive focus is put on the renewable heating technologies, e.g. heat pumps, solar heat and biomass as well as ventilation systems. The data and process models developed in this research project will be scientifically evaluated in two pilot projects. The models, the approaches taken during development and the project team’s experiences with the pilot application of the models will be disseminated openly.
VERTICAL FARMING - Investigation on requirements of a Vertical Farm-prototype development for crop plant production
In the center of interest stands the investigation of fundamental principles for a new building typology – the Vertical Farm. Urban vertical food production can contribute to more energy efficient cities by concurrently reducing land use. Substantial influencing factors to achieve these goals are intended to be revealed.
FEELings - User Feedback for Energy Efficiency in Buildings
User behavior is a key factor for the energy consumption and the actual energetic performance of a building. A new type of user feedback system will be investigated in this research project. Users provide feedback on the sensed room quality. The data obtained by the feedback system are used to optimize settings of building services in order to improve the energy efficiency and the comfort in the building. A basic proof of concept of this system will be undertaken by means of two use cases.
Vilipa - Visible light based Person and Group Detection in existing buildings
Evaluation of the technical and economic feasibility of an occupancy detection system based on the technology of visible light sensing, which, in combination with the building management system, should reduce the energy consumption of buildings. The goal is to implement low-tech/low-complexity solutions that can distinguish between individuals and groups based solely on the detection of visible light reflections.
FFF-TaliSys - Freeform Systems for Daylighting to be Integrated in a Façade and in a Skylight
In the course of the project FFF-TaliSys novel daylighting systems based on freeform surface technology were developed and implemented into functional models, thus, innovative systems that solve the contradictory requirements of daylighting systems.
Innovation lab act4energy
The Innovation Lab act4energy is set up as an innovation laboratory project. Its focus is to solve the problems of renewable energies integration with a focus on photovoltaic power paired with local consumption, linked to the the high fluctuation of renewable energies.
Cooling LEC - Energy-flexible buildings by controlling cooling systems via unidirectional communication in local energy communities
As a result of climate change and the rise in temperature, especially due to the increase in active cooling systems, especially at low-voltage level, new challenges are being posed to the electricity system (in particular to the distribution network). Due to the high electrical input of active cooling units and the high density of plants, which are sometimes operated uncoordinated and at unfavorable times, leads to peak consumption in the system. The project Cooling LEC therefore has as its overall objective the development and demonstration of a central control / intelligence of decentralized active cooling systems by further developing the unidirectional communication of ripple control systems to create energy-flexible buildings in the sense of the new approach of "Local Energy Communities" by creating a "special tariff". Ripple control systems have been established for many decades and are available and proven by all energy suppliers. The upscaling potential is very big.