Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"

ParaSol - Multifunctional solar canopies for urban streets and places

With the city of Leoben as a use case this exploratory project will, for the first time ever, examine the spatial effects, synergy- and energy potentials of newly developed wide-span light-weight solar canopies for streets and squares in urban public space as well as their implications on the townscape, the image of the city and the city function.

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.

vilFIT – Villach Fit 4 Urban Mission

In this project, measures, strategies and the necessary capacity building for achieving climate neutrality in the city of Villach will be advanced. The focus is on social and structural innovations (participation processes, development of pilot initiatives, public relations, etc.) as well as the definition of networks and structures or controlling and monitoring instruments.

BIMSavesEnergy - BIM-based planning-methods for the assurance of energy-efficiency in the building process

The Building Information Model (BIM) brings about fundamental changes in the planning and construction of buildings, as the common base makes it possible to work closely together across disciplines in construction projects. In this project, BIM-based planning methods were developed, which make the influence of planning decisions on energy efficiency quantifiable and controllable in the management process.

MOTIVE – Modeling, Optimizing, and technical integration of Vacuum-Glazing-Elements

This project addressed the development of construction details for the implementation of vacuum glazing panels in new windows. In this project such constructions (form of frame, thermal bridges, structural aspects, mounting of glass) were explored via empirical experiments and via simulation. As an outcome, a mock-up was constructed, and the findings were documented in a comprehensive document.

NETSE - User orientated development of technologies and services for energy communities

In the NETSE project the basics for the implementation of energy communities are developed. This includes the relevant technical equipment and interfaces, the development of a platform for the operation of an energy community as well as tools for the optimization of the technical setup and the operation of energy communities.

Joining Cards - Investigation of de-constructable fastening and joining techniques for the development of mono-material interior systems made of cardboard

Strategic examination of cardboard products and paper-based materials for the development of de-constructible interior systems and the definition of building components and their interfaces. The result forms the basis for further research projects in the form of a comprehensive knowledge gain.

Wall systems made of renewable resources

Testing and optimising post and beam straw bale constructions Testing the thermal insulation (specific heat conductance) and fire resistance of a construction (combustibility grading period), optimisation of building junction elements, development of a mobile testing lab for efficient and effective quality management

1000 passive houses in Austria - 2nd documentation period 2004 - 2005

2nd documentation period of the joint project of IG Passivhaus Österreich under the programme line "Building of tomorrow", an initiative of the Federal Ministry of Transport, Innovation and Technology (BMVIT) to set up a detailed network documentation on a representative cross-section of all passive houses in Austria.

Potential and concepts for waste water heat recovery in combination with solar collectors and heat pumps (WRGpot)

The objective of the project is to find possibilities for the reduction of heat demand for hot water preparation of low energy and passive house buildings, in order to advance a further step into the direction of plus-energy buildings.

Certified passive attic conversion of a typical building from the period around 1900

Conversion of an attic of a typical building from the period about 1900 to a passive attic with photovoltaic system and renovation of the existing building equipment. The aim is to keep the additional construction costs under 10 %, to avoid overheating in summer and to make possible a reproduction for the large amount of buildings from the same period.

aspern Vienna´s Urban Lakeside - subproject 1: Public Space and Micro Climate: Basics for climate sensitive planning in Aspern

The Project will derive planning examples and recommendations in order to optimize the building performance as well as outdoor amenity. The study will be based on a climate prognosis of the aspern area and compare different reference examples of construction and open space design.

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.

First energy autonomous revitalization of an urban former industry quarter with the standard type of "Passive House" to reduce primary energy max. 100 kWh/m2 NFL

A renovation with the energy efficient factor 10+ of a former industry quarter in the standard type of passive house with usage of the most modern technologies and locally renewable energy resources.

Development of affordable building equipment and services for future "Energy Plus houses" (Plus-Hybrid)

"Plus-Hybrid" integrates knowledge and experience from current activities and complement them by adopting a holistic approach, considering the intelligent interconnection of components as well as managing the planned efforts and human resources in time. The goal of this project was to develop affordable building equipment and services for future "Energy Plus houses".

Results of the latest research about thermal use of solar energy in multi-storey housing, prepared for builders and planners

The relevant Know-How in the fields of "sustainable building and energy supply" will be gathered. The information will be transferred to the relevant target groups (building promoters, architects, planners, customers). This will be done during workshops, planning assistance and a catalogue of quality criteria. The focus lies on solar thermal systems for multiple-family houses.

PESI - Paradigm shift in urban energy systems through synergies with industry

Analysis of different options for the use of industrial surplus energies of various shapes (waste heat, waste water, waste) and renewable energy sources in the industrial sector (e.g. solar panels on roof surfaces) in adjacent urban areas, which act as an "energy sponge". Based on real consumption and availability data, a simulation model was created and opportunities for synergies were documented.

URBAN STRAW - Fire protection conditioning of blow-in straw insulation material and its structural application for urban building classes 4 and 5

Investigation and development of fire protection conditioning of chopped straw blow-in insulation based on biogenic flame-retardants of similar building materials and their application methods. Use of the material as external thermal insulation in material-reduced prefab timber construction elements for urban building classes 4 and 5 up to 6 storeys.

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.

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".