There are 495 results.
Development of comprehensive concepts for local distribution systems for thermal and electric energy within a residential area including the consideration of the interaction with construction and city planning. Derivation of measures for demonstration buildings and the infrastructure of the residential area. Integration of computing models to a prototype simulating energy distribution in the residential area.
The Overall Project Management of the "Leitprojekt" includes the handling and supervision of the sub-projects, the reporting to the programme management and additionally the preparation and distribution of relevant results. Beyond that the project management is responsible to highlight possible synergies within other projects and to - if necessary - include these within the next steps.
baubehoerde.at - Development of a Vision 2030 for a Digital Building Authority and Recommendations for Action in Austria
In Austria, planning permission applications are submitted and managed largely manually. The aims of the baubehoerde.at project are to evaluate the potential and limitations of digitizing building approval processes and to create a Vision 2030 strategy for a digital building authority.
By the foundation of the baubook GmbH in 2008 the two databases of building products "öbox" and "ixbau.at" have been merged. The new database baubook was expanded. Essential functions (central product declaration, decentral quality management) and fields of products were added.
The objective of the project was to develop online teaching materials on the topics energy-efficient buildings and renewable energy sources in collaboration with technical vocational schools and vocational higher secondary schools.
Development of an internet-based tool for passive house retrofit für - target group social housing companies. Actualization of tool after test and evaluation in case-studies. dissemination activities in austria.
e80^3-Buildings - "reconstruction concepts towards energy plus house standard with prefabricated active roof and facade elements, integrated home automation and network integration"
The project aims for highly-efficient renovation of existing buildings and settlements in urban areas. The main focus are buildings that were built between 1950 and 1980.
Goal of this subproject was to select the building with the highest potential within a building-portfolio. Therefore a criteria catalogue was developed, which is generally applicable.
Based on the selection of suitable demonstration projects in Subproject 1 an innovative concept for passive and active building envelopes and energy supply of so called "Plus Energy Buildings" (renovation) has been developed.
The main objective of the key project "e80^3" was to develop high-performance renovation concepts focusing on plus-energy-buildings. Afterwards these concepts were realized in at least one or two demonstration-projects.
Alongside the realisation of the plus energy building in Kapfenberg, a demonstration project is scheduled to be created that accomplishes an economically viable and technically innovative solution for the future.
The content of subproject 5 was the analysis of energy- as well as building-biology-related issues for the evaluation and quality management of the demo-project in Kapfenberg, which involves a high-quality refurbishment to a plus energy house within the program "Haus der Zukunft - Building of Tomorrow". Within this process the user acceptance before, during and after the renovation was elevated and this will be processed for upcoming projects. The environmental quality of the building regarding the choice of materials and measures during the construction phase and the subsequent use of the building was assessed with the help of the TQB-planning and evaluation tool.
ecoRegeneration: Development of a "Merit-Order" in order to assess regeneration heat for geothermal probes within urban residential neighbourhoods
In urban residential areas there are not enough active-cooled usages, to use the waste heat of the cooling process as required regeneration heat for geothermal probes; free cooling of the apartments is not sufficient. The project is developing various options (waste heat from commercial uses in the ground floor zones of residential buildings, by using waste heat of data centres, additional installation of heat generation systems for regeneration) within the urban settlement area, business models and is calculating life-cycle-costs of all solutions. The result should be a kind of "merit order" for regeneration heat.
The integration of heat pumps can increase the cost effectiveness of existing heating networks and counter the high costs for the expansion of power grids at the same time. Aim of the project is to develop innovative business models for small and medium municipal heating networks with focus on synergies between heat and power market. Main focus is a heat pump pooling for several heat grids.
greening UP! Sustainable green maintenance, maintenance, maintenance of vertical greenery including legal aspects
Based on extensive surveys and analyses of existing vertical building greenery in outdoor areas (floor and system-bound façade greening) and vertical interior greenery, the project developed tailor-made green care, maintenance and repair concepts and addresses legal aspects. The "greening UP!" Knowledge pool with concrete recommendations and clearly presented findings as well as the conception of a digital tool for the "First Green Aid" complete the project.
lieBeKlima - quality assurance of cross-property greening for urban climate resilience in the neighbourhood development "Am Kempelenpark"
lieBeKlima aims to initiate the implementation of a cross-property and cross-system greening concept for the "Am Kempelenpark" neighbourhood development. This will be realized with innovative, identity-creating participation processes and a comprehensive quality assurance process. The focus lies on an interconnected consideration of integral greening concepts with higher-level water management and plus-energy concepts.
lowTEMP4districtheat - Reduction of the system parameters of heating networks for the integration of renewable heat sources using soft sensors
Analysis of the use of soft sensors in addition to selective real measurements for the complete recording of real-time parameters of heating networks. The data obtained enable detailed grid simulations with low computing power requirements and form the basis of a strategy for lowering the grid temperatures and feeding in decentrally generated heat.
Optimized & reliable operation of Heating, Ventilation and Air Conditioning (HVAC) systems in terms of maintenance and energy management, using predictive, data-based & self-learning error detection. Conceptual design and prototype implementation of an AI (Artificial Intelligence) tool for automated data analysis and recommendations for technical building operators.
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.
All pilot projects of "Building of Tomorrow Plus" had to be evaluated in a common monitoring project on energy efficiency, user's acceptance, and the integrated building performance. monitorPlus documented and assessed the results of this evaluation.