Suchergebnisse
Living-city Joint-space-potential Salzburg
Exemplary transformation of a traffic abused open urban structure. The target was to develop a model through supplementary housing as well as social measures and measures for the surrounding.
Energy-storage concrete: Thermal Component Activation
This planning guide provides information on the option of solely heating and cooling small-volume residential buildings by means of thermal component activation (TCA). Concrete instructions on the planning of residential buildings with thermally-activated ceilings are also provided.
Felix Friembichler, Simon Handler, Klaus Krec, Harald Kuster
Herausgeber: BMVIT
Englisch, 122 Seiten
Downloads zur Publikation
Quality criteria for the Building of Tomorrow
Development and implementation of contributions to the quality control of innovative technologies in the areas of building services and insulation that are derived substantially from HAUSderZukunft findings.
Effective Comfort in a Climatic comfort house
Sophisticated implementation of different passive house-building services systems on a basis of four similar parts of a structure of multi-storey dwelling houses.
Development and application of an consultancy model to promote sustainable building design
Development of an consultancy model to promote ecologic and economic sustainable building solutions within the planning process. Analysis of the efficiency of guided (integral) meetings with architects, planners, and experts for different items.
Eco.District.Heat - Potentials and restrictions of grid-bound heating systems of urban areas
Aim of the project Eco.District.Heat is to provide strategic decision-making support that enables Austrian towns and cities to deal with aspects of grid-bound heating (and cooling) systems in accordance with integrated spatial and energy planning from a holistic perspective when elaborating urban energy concepts.
Cross building energy exchange: legal and economic framework and influencing factors (GebEn)
Using an interdisciplinary approach, the legal, technological and economic aspects of the cross-building exchange of heating and power were analysed separately within a methodological framework which includes different system configurations relevant to the specific situation in Austria.
TFlex - Temperature-flexibilisation in low-load operation of local district heating systems
Within the research project TFlex it was checked if the losses adherent to small district heating networks during low-load periods can be reduced. One possible solution is by deactivating the network and supplying the customers from previously charged decentralized storages. The optimal clustering of the storages and the possibility of solar-charging the storage were calculated with the aim of a guaranteed one-hundred percent heat supply.
GAINING BUILDING LAND without expansion - development of single-family housing settlements
Identifying and utilising potentials for higher densities and re-structuring in single-family housing areas requiring renewal
solSPONGEhigh - High solar fraction by thermally activated components in an urban environment
Within this project the intensive use of thermally activated building elements (TABs) as an additional thermal storage in different buildings, with solar technologies (thermal, PV) preferred for energy supply, was investigated. The aim was to activate and use the thermal storage potential that is immanent in the building elements and thereby achieve solar coverage of the building's heat demand of nearly 100 %.
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.
Increase of in-house consumption by building clusters and active storages (Eigenlast Cluster)
The project involved the evaluation of the significance of new approaches for the increase of in-house consumption of solar energy (electric energy and heat) of buildings in Großschönau, which are already equipped for such measurements. The existing municipal buildings, commercial buildings and households are aggregated to form virtual building clusters. Subsequently, the clusters were analyzed according to their in-house consumption with and without the usage of batteries and H2 storages. The economic analysis of this concept derives from a regional implementation plan for further industrial research.
School vent cool - Ventilation, cooling and strategies for high performance school renovations
Based on a building typology, strategies for prefabrication for high-quality thermic-energetic renovation of school buildings were developed. New solutions for ventilation systems to achieve good air quality and shading systems were analysed and tested. The "School vent cool" method for renovation of schools has been developed.
SeasonalGridStorage - Innovative seasonale thermal storages for urban district heating grids
Sensible storages, which are currently used in district heating networks for seasonal storage of excess heat (e.g. from solar thermal or industrial waste heat), exhibit high space demand, investment costs and heat losses. Within this project, concepts for using innovative storage technologies, e.g. thermochemical storages (TCS) having high heat densities and enabling pressure- and lossless storage, were developed and analyzed on a technological, economic and ecological basis. Additionally, the regulatory framework has been evaluated.
Revolutionary, cost efficient bitumen rooftop membrane with integrated photovoltaic modules
The project goal is to adapt the photovoltaic (PV) modules of crystalsol and an appropriately designed production process in order to integrate the flexible photoactive layer cost-effectively into waterproof roof membranes. At the end of the project the first membranes with integrated PV-layers will be produced. The success of this project would lead to enormous cost cutting and technological development advantages in the BIPV technology.
see-it - Camera based, user centric daylight control system for optimized working conditions
In the project technologies in the field of building construction and building automation are being researched for quality and performance improvements in the workplace. The aim is to individualize the control of sun protection to the people who need to be protected from glare and overheating and hope to see through.
Knowledge into school - Development of teaching materials for technical and vocational school
The main objective of the project is to produce teaching-materials based on Ecobuilding ("sustainable building") for secondary schools / technical schools (Berufsbildende Höhere Schulen and Berufsschulen) in cooperation with school stakeholders (education experts) and by using e-learning platforms.
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".
High-quality refurbishment - Designing quality standards for the refurbishment of municipal buildings
Designing quality standards for ecological refurbishment (based on E. Panzhauser's proposals, 2001); applying them to characteristic types of buildings systematically selected in diverse municipalities; the achieved results shall serve as good practice examples for future refurbishment and as basis of discussion on subsidy regulations.
BIGMODERN - Sustainable refurbishment standards of federal buildings constructed between 1950 and 1980
The project aims at developing sustainability and climate protection criteria for the refurbishment of federal buildings of the postwar period. These criteria will be tested for their practical suitability within the framework of demonstration projects. Subsequently, these criteria will be defined as fundamental guiding principles in the planning and building processes for all future BIG retrofit projects.