Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Economic usage of Photovoltaic electricity in buildings
The aim of this project is to optimise the direct usage of PV-electricity produced in buildings. The main question concerning the right dimensioning of the PV generator should be answered in order to achieve a high direct usage rate of produced PV electricity under economic considerations. This analysis will be carried out for various building categories. As result, a calculation method will be developed (incl. report), in order to achieve the optimal, most economic PV system for various building categories and user typologies.
Innovation & Cost efficiency: Building standards for multi family residential buildings at optimal cost (Inno-Cost)
In this project, innovative building standards were examined concerning their economical aspects through the life cycle of a building. By means of life cycle-costs for 40-50 multi family lowest energy and passive house residential buildings on actual data from the day-to-day operation, reliable data and know-how was compiled for the first time, which is to support further market penetration of innovative building standards in the field of multi family residential buildings.
THERM-opti-BALCONY: Thermal Optimized Renovation of Balconies
Pre-cast cantilever balconies represent a particular problem in the thermal renovation of buildings. The central goal of this project is the development of practical and cost-effective mounting solutions for the thermally decoupled reconstruction of balconies on building frontages and achieving a significant increase in the energy performance of the thermal renovation measure.
FEELings - User Feedback for Energy Efficiency in Buildings
User behavior is a key factor for the energy consumption and the actual energetic performance of a building. A new type of user feedback system will be investigated in this research project. Users provide feedback on the sensed room quality. The data obtained by the feedback system are used to optimize settings of building services in order to improve the energy efficiency and the comfort in the building. A basic proof of concept of this system will be undertaken by means of two use cases.
SYSPEQ - Systemische Lösung zum Betrieb von Plusenergiequartieren
Full-scale planning concepts for positive energy districts (PEDs) and their operation as energy communities (ECs). The focus is on the implementation in the existing building stock, especially in the area of social/non-profit housing. Financing options for renewable generation units, planning and operation of a PED (especially as an EC), marketing opportunities for surplus electricity and the development of an information and networking platform are part of this project. A special highlight is the practical proof-of-concept in Fuchsenloch, which is a social housing quarter of Sozialbau.
P2H-Pot - Potentials, economic feasibility and system solutions for Power-to-Heat
P2H-Pot has identified economically feasible potentials for Power-to-Heat (P2H) in urban regions. The suitability of different technical system configurations were investigated using thermodynamic simulation and considering experiences from Scandinavian cases. The assessment of short, medium and long term relevance and economic feasibility of P2H were accomplished by simulating model-based scenarios up to 2050 of the Austrian and German electricity and heat market. In cooperation with a district heating company three case studies have been carried out.
Gründerzeit with future - subproject 6: dissemination
Dissemination aimed at defining the relevant target groups and broadly distributing the innovative solutions of the flagship project GdZ to the defined target groups. It is of crucial importance to effect a wide awareness level and to make a deep impact on the relevant target groups.
Urban consolidation Lehen - Subproject 3: Demonstration project - intelligent e-monitoring
The aim of the project was the implementation of an innovative energy consumption monitoring concept with the active integration of the residents and a study of the resulting effects on the energy consumption behaviour.
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.
RAARA - Residential Area Augmented Reality Acoustics
Populations with high exposure to noise emissions will generally agree: Noise means trouble. The aim of project RAARA is to develop a simple, intuitive albeit accurate method for reducing noise imissions in urban areas. This method involves placing a noise-source into its planned real-world destination prior to actual installation, by means of augmented reality. The ensuing sound-imissions are then made tangible by means of sound effects and coloured visualizations. This exceptional approach will facilitate planning for heating and cooling devices and thus reduce noise pollution in urban areas. This, in turn, can contribute to an increase in societal acceptance and investment in renewable energy.
AC/DC Office Buildings - Implementation of Electricity Networks with Alternating and Direct Current in Office Buildings - Feasibility and Energy Efficiency Potentials
Based on a literature and technology review this projects aimed to document and demonstrate already available and reasonable concepts for the implementation of electricity networks with alternating and direct current in modern office buildings. Focus of the study was to assess the feasibility in general and the energy efficiency potential in particular but it also documents necessary technical equipment and expected advantages and disadvantages. Additionally, important research questions for energy supply, energy distribution and application of direct current technologies were formulated.
BIOCOOL - Bio-inspired Surfaces for the Evaporation Cooling of Building Envelopes
The BIOCOOL project will explore the transfer of morphological principles from leaves of deciduous trees, with optimized thermal properties and efficiency of evaporation to the parametric design of form-optimized architectural ceramic surfaces for climate control of building envelopes. The study paves the way for an industrial research project.
FIVA - Window prototypes with integrated vacuum glazing
This project targets the further development of windows with integrated vacuum glazing. Such glass products regularly feature a very low Ug-value, and their dimension is in comparison to insulation glass thin and light. As such, these products offer a new alternative for highly-insulating window constructions, and thus also for energy-efficiency measures in buildings. The project is based on the findings of a previous exploratory project (MOTIVE) and focuses on the construction of functional prototypes of vacuum glass windows together with business partners.
Sol2Pump - High efficient combination of solar thermal plants, photovoltaic and heat pumps
Targeting a high level of decentralised energy supply on basis of renewable energy, the project analysed the possible combinations of solar thermal energy, photovoltaic and heat pumps. The project aimed to maximise the domestic energy supply due to utilisation of the building as short term energy storage. In addition to that, several optimisation measures had been developed. The impact on the energy supply and demand will be economically assessed through life cycle costing. On this basis, the potential load transfer and the use of this kind of systems had been evaluated in combination with smart grids.
Passivhauswohnen³: Facility Management for Residential Property Developers: A Key to Optimizing the Reduction of Energy and Operation Costs
What soon will be considered "standard" in ecological building must be carried out by the property developer and accepted by the future user. Therefore, in order to assist a smooth implementation of the new passive housing technique and begin the corresponding feedback mechanisms, a specific KMU "quality and incentive model" should be launched. The interrelationship of this model is designed with the property developer as well as the user in mind and aims for lasting "behavior modification" in energy and operational expense consumption.
Ventilation and heating in passive houses: Comparison of variants in terms of thermal comfort and sustainability
This projects aims at systematic resarch on thermal comfort and the sustainability of heating passive houses with and without air heating. The results of the comprehensive investigation of different variants will provide valuable information for building developers, planners and for funding decisions.
SOFC4City - SOFC-waste heat utilization for buildings and industry
In this project the application of a solid oxide fuel cell (SOFC) for energy supply (heat and power) of urban areas will be investigated. Due to the high temperature level of the produced heat it would be possible to use this heat for the energy supply of different heat and power consumers (residential buildings, industrial plants, etc.). One aim is to provide the SOFC-heat at several temperature levels in order to establish the advantages of the fuel cell. On the one hand the legal and market-based conditions will be evaluated, on the other hand the technological feasibility will be scoured by the use of CFD-simulation of the heat production.
MEIDLINGER "L"-Participatory and scalable climate change adaptations in existing buildings at the intersection of public and private space
The project pursued an integral and interdisciplinary approach to climate change adaptation in existing buildings at the interface between public and private space. A scalable and multipliable model for Vienna and other cities had been developed.
GEMA – Assessment of the performance of energy-efficient demonstration buildings
In GEMA, the project team will study and analyse the energy consumption of at least 10 commercial and residential buildings in Austria, which include innovative technologies or concepts for minimising their energy requirements. The results will allow for the potential optimal performance in terms of energy, environmental and social indicators of buildings in future construction projects.
International Passive House Summer School for Students (PH-SS)
Summer school / workshop for design, construction and calculation of buildings in the passive house standard for students from Austrian and European universities.