Suchergebnisse

Multifunctional City Nucleus

Sustainable mixed-use utilization of urban commercial and industrial areas with a specific focus on energy-related aspects.

Modular and standardised passive houses in solid timber construction

Concerning to an accurate and adaptable construction of 2 to 4 storey solid timber houses with the characteristics of a passive house, a digital construction and dimension system will be developed. The system which contains standardised modular ecological detailed solutions enables an exact dimensioning and installation of passive houses by small carpentering companies.

Sunny research! Sustainable building design with high energy performance for a modern commercial building

Commercial buildings of basic to medium standard are hardly ever designed by a high quality of innovative building services engineering. In the project Sunny research! a sustainable building design with high energy performance was developed. The aim was to adapt the aspects of Renewable Energy, thermal comfort and wellness in work.

EXPO HdZ: Best of Diffusion

Conception and implementation of measures to spread selected results from the house of the future - program to the building industry, in particular to meet the target groups architects, builders and building developers.

"gugler! build & print triple zero" - Subproject 8: Leuchtturm gugler – Ökoeffektive Plusenergiedruckerei

On the basis of the commercial building gugler with 2140 m² useable floor area existing and 3260 m² useable floor area to be built a concept for a 100% recyclable ecoeffective building had been developed.

Documentary on 3sat "The future of living"

Production of a 45 minutes film about living in the future.

Operational and maintenance costs in passive houses and low energy houses

How much energy does a passive house actually save? Does a passive house pay-off by itself? What are the costs for maintancence? For the first time an approximation for the running costs of a passive house were systematically documented and compared.

LifeCycle Tower - Energy efficient prefabricated multi-storey timber houses

Based on the results of previous research projects, the project at hand deals with the development of a wooden prefabricated module construction for energy efficient office buildings with up to 20 storeys. This sustainable system ensures cost certainty through the whole life cycle of the building.

"gugler! build & print triple zero" - subproject 3: recyclable constructing

Development of basic principles and proposals for highly recyclable constructions. A catalogue with main principles of recyclable designing with a particular focus on material inherent bonding and joint techniques as well as a selection of constructions including ecological benchmarks, calculation of building physics plus costs was created.

E.Vent – Efficient, cost-effective and low-maintenance central ventilation systems for multi-family housing – Design, operation and fire protection measures

Die Synopsis ist eine drei- bis vierzeilige Beschreibung des Projektinhalts alsErgänzung zum Titel und nähere Erläuterung des Projekts.

G2G – Innovation axis Graz-Gleisdorf

Development of testbeds and demonstration zones within already designated areas for urban development along the Graz-Gleisdorf Innovation-Axis with a focus on energy, integrated building technology, smart city-spaces, compact settlement structures, generational living, and ‘cities of short ways’. It will pay specific attention to intermodal mobility as well as ICT-based solutions.

urban pv+geotherm - Innovative concepts for the supply of large volume buildings/ quarters with PV and geothermal energy

The use of renewable energies in inner city locations is mostly linked to higher costs andconsidered as problematic. The aim of this project was to optimize (cost and energy) heating (and where required, cooling) using geothermic and photovoltaic for an urban, densely-built development area. With the project´s findings it will be easier to ecologically and economically plan the use of renewable energies especially in urban areas.

BONSEI! Optimal use of existing buildings – energy efficient implementation of renovation!

The project BONSEI! would like to support an energy efficient and socially acceptable densification of privately owned residential buildings in urban space and to develop a methodological basis for resource efficient urban areas. The results are used for the conception of an innovative service in order to provide a neutral consulting regarding private densification plans.

Sol4City - Integrated solar supply concepts for climate-neutral buildings for the "city of the future"

Intelligent technology coupling to achieve high solar coverage of the buildings (multi-storey residential building) heat and electricity demand. At the end of the project, integrated energy supply concepts for multi-storey residential buildings based on high network interaction and flexibility potential, maximum surface efficiency of conversion technologies on site and high economic competitiveness are available for the broad applicability in the "City of the Future".

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.

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.

Cooperative Living Volkersdorf (KooWo - Volkersdorf) - sufficiency, space and energy efficiency in the quarter

The jointly planned demonstration project "KooWo" in Volkersdorf aims at reaching sufficiency as well as energy and CO2 reductions in a holistic way. System boundaries are shifted in order not to look only at energy consumption in buildings, relating to unit of floor space, but to consider all use of resources and relating it to persons and social communities.

6D BIM-Terminal: Missing Link for the development of CO2 neutral buildings

The present project aims to close the gap between specialist consultants and Building Information Modeling (BIM) applications. For that, relevant data for cost estimation, scheduling construction planning and management or sustainable building operation and facility management, shall be added automatically to BIM elements and imported into the respective specialist planning software. This data exchange shall be carried out using IFC interface according to ÖNORM A6241-2 and the properties of the ASI properties server via a central platform, the "6D BIM-Terminal".

VITALITY - Energy optimised design rules and integral planning approach for building-integrated photovoltaics in urban areas

The VITALITY project aims to provide supporting tools, design rules and robust information in the early decision and design phase of building projects. By providing the right information at the right time, building-integrated photovoltaics (BIPV) is part of the discussion in the concept phase and the implementation is strongly prepared and supported.