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Balancing Energy Demand with Buildings
The project BED aimed to the development of new concepts for the operation and application of building automation systems in non residential buildings to reduce the maximal energy consumption and to ensure a stable and high-quality power supply.
Basic research on the load bearing capacity and high thermal insulation properties of foam glass granulate
The aim of the scientific investigations is to find the characteristic parameters of foam glass granulate applied as load transfer layer and thermal insulation, to provide the base for the application of a multi functional and economical insulation material at the interface between building and ground for buildings of the future.
Beacon of innovation gugler cross media, ecoeffective zero energy cross media enterprise featuring zero-emission, zero energy, zero waste
The aim of the flagship project is a new dimension of sustainability (cradle to cradle, ecoeffective zero energy enterprise) for business operation and building, which means zero emission, zero energy, zero waste. This will be shown on the basis of a beacon of innovation: Gugler GmbH, a modern sustainable media services enterprise (traditional print and new media) will extend their current building from about 2100 square meters and about 90 employees to about 5,000 square meters.
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.
Bi-directional integration of buildings with heat sources in thermal networks
This project analyzed the integration of decentralized heat sources into domestic heat grids technically, but also economically.
BiBi-TGA, Potential for the ecological optimization of technical building equipment through the usage of biogenic materials
Assessment of the substitution potential of conventional components of technical building equipment by biogenic materials. The aim is to provide new data on the ecological improvement potential of the usage of biogenic resources in the technical building equipment in office buildings. The potentials are analyzed by means of LCA screenings and technical feasibility studies.
BioSkin - Research potentials for biologically inspired energy efficient façade components and systems
The research study was targeting the identification of strategic research potentials in the field of biomimetics for innovative facade technologies of the future. With the identification of useful principles of biological role models and the transfer to bionic facade concepts, interdisciplinary R&D research activities are improved to enable the development of sustainable solutions for climate-adaptive energy-efficient facades systems of the future.
Biomimetic potentials - Interdisciplinary identification and preparation of innovative biological inspired key technologies for "Plus-energy buildings of the future"
Experts from various branches of industry and research as well as bionics representatives worked out innovative ideas regarding "Key technologies for Plus-Energy-Buildings". The results provide a collection of emergent bionic research potential for the implementation of innovative research in the Austrian building sector.
Biotope City - construction manual for the green city of the future
"Biotope City" is an overall concept for the implementation of comprehensive urban greening with the aim of using the regenerative mechanisms of nature. With this approach, quality of life is to be comprehensively, sustainably and cost-effectively increased and resilience against extreme weather events in cities will be improved. The project aims to generate realistic components of a "construction manual" for the green city of the future, which are generalizable and transferable.
Bluetooth home control system
Purpose of this project was to realise a wireless intelligent home, that can be radio controlled from each bluetooth compatible mobile (2 mrd in curculation all over around the world). Entrence, security and also to control electrical devices where the cornerstones of this project.
Booklet issued by Building of Tomorrow with about 20 practical passive house thermal bridges free connection details for large-volume residential buildings
In particular, for buildings with very low energy consumption on heating the influence of heat bridges have a special value. Since in passive house construction a largely heat bridge free execution is required, the most frequent and significant heat bridges are collected in a booklet.
Build to satisfy: Modeling of user behavior in lowest and plus energy buildings: Consequences for building and comfort
Aim of the project was a better understanding and modeling of effects of user behavior on energy performance in office and service buildings, built with lowest energy building and plus-energy building techniques. The results support facility managers of office/service buildings and integrate gender and diversity issues.
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 and modernising with "Building of Tomorrow"
The project BauModern turned to non-profit and commercial housing developers and real estate managements. In close co-operation with the federations of the housing and real estate economy has been achieved that builders are informed about market-suited innovative technologies and concepts and use these strengthened for their projects both in the new building and in the refurbishment.
Building as living lab - Buildings as a living lab for climate-neutral, needs-based and affordable housing
Within ÖWG, climate protection and sustainability are strategically anchored in renovation and densification projects. A comprehensive, climate-neutral renovation concept had been developed for a specific pilot property in Graz in an open, co-creative innovation process. The building becomes a living lab in which new solutions are tested in the everyday lives of the residents.
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
Buildings of highest energy-efficiency with integrated renewable energy development
For the future supply of energy services the combination of energy efficiency, energy storage and decentralized use of renewable energy in buildings offers itself. The project identified dynamic potentials of possible active and passive energy yields of construction units with use of renewable energy sources, pointed future solutions to energy-efficient and ecological design of building construction-units and united all results to a signpost: From today's passive house to the energy-plus-house of the future.
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.
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.
CO-MOD - Increasing comfort and energy efficiency through improved lighting and air quality in schools - implementation through modular EPC-models and ESCO-networks
In general local educational institutions such as schools and kindergardens have a high average demand for improved comfort and energy efficiency improvements. CO-MOD develops a flexible, modular concept (with provider networks, various financing options incl. "Grandmother"-Energy Services, contract modules) that can also respond to the individual circumstances of smaller objects.