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Online reference for ecologically rated building construction details suitable for achieving Passivhaus standard
An already well-established web database management system is being adapted to present the contents of a catalogue of building elements for the Passivhaus standard. A wider distribution of the contents and future extensions of the catalogue by distributed workgroups are the promises of the project.
Open Innovation
Instruments and Strategies for the involvement of users and other relevant social groups in the design process: the example of fuel cell technology in end-user markets and wood-plastic composites.
Open up Austria's biomass potential till 2050
Development of an optimal strategy to open up Austria's biomass potential until the year 2050. The optimal strategy maximizes the reduction of GHG emissions. Provision of an action plan for a temporal dynamic implementation of this strategy.
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.
Optimisation of ecological construction components for industrial serial production of precast elements
The project focused on passive house elements from straw and clay. Special interest was paid at a novel straw insulation as well as at an efficient drying process of the clay. Sustainability of the building materials was a very important aspect within the project.
Optimization of methane production - the Methane Energy Value Model
The biogas production from energy crops will be analyzed and optimized. Energy crops are grown in an environmentally friendly and sustainable crop rotation system. The project provides a secure basis of data for the biogas production and utilisation. Farmers will invest more into the biogas technology.
Options needed to achiece energy-self-sufficiency in the district Güssing
Based on the results of the concept "Energy-self-sufficient district Güssing", in this project feasibility studies for a self-sufficient energy- (model) -system on the basis of regional renewable energy sources in the district Güssing will be elaborated. Thereby the second step towards implementation will be done.
OptoControl - Modern sensor systems for energy conservation in buildings
The necessary efficiency of modern energy-self-sufficient buildings can only be achieved with intelligent control of the key parameters. The main focus of the project is the adaptation of optical sensor concepts for application in building technology. The future goal of the project is to supply the modern energy-plus-house with an appropriate and intelligent control device to minimize energy loss.
Organisation and initiation of a multfunctional energy - centre in the community Deutschlandberg
Conception and implementation of a multfunctional energy - centre considering as exemple "Model Güssing", where different possibilities concerning the production- and consumerside are optimised together in order to achieve the aim of an energy - self-sustaining community Deutschlandsberg.
OttoWagner-ArealPlus - Feasibility study for a certified plus-energy-district-renovation of the listed Otto-Wagner-Area
Development of an innovative concept for the transformation of the Viennese Otto-Wagner-Area into a plus-energy-quartier while meeting requirements of cultural heritage management. The historic architectural jewel covers an area of around 50 hectares, consists of 70 buildings and a gross floor area of around 200,000 m². The solution meets highest energy efficiency standards and comfort requirements.
Ozon as service
Developement of a concept of "service ozone as a special gas" has the main reason to support the chemical industrie, laboratories and others to substitute chemical oxidatives, which is a big ökological advantage.
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.
P2PQ - Peer2Peer im Quartier
The research project Peer2Peer im Quartier deals with applications optimizing the selfconsumption of PV-generated energy within urban quarters by enabling peer-to-peer relations among energy prosumers based on Blockchains. Aim is to develop and validate these applications in real operation.
PEAR – Test facility for energy efficient automation and control of buildings
The energy demand calculated in the design phase often differs from measured values in the actual building operation. This projects reviews building automation and operation by presenting a solution how to assess energy efficiency of control strategies in the fields of air conditioning systems, concrete core activation and free cooling. The results are implemented in the demonstration building "Post am Rochus".
PEB - Plus-Energy-Office
An integrated technical energy plus office concept without additional building costs demonstrates the feasibility of such projects instancing a concrete office project with 50.000 m² floor area in Vienna with economical cost consideration.
PEQBacker: Integrated District Planning - Enabler on the way to a Plus-Energy District
Development of guidelines for the implementation of Plus-Energy District coordination units based on research of success factors, exploration of mission elements of existing structures and consultation of a broad stakeholder group with the goal of increasing the transformation of existing and emerging neighbourhoods toward Plus-Energy Districts.
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.
PET2More - Biotechnological upcycling of PET plastic waste as a contribution to the gradual reduction of petroleum-based raw material dependency
The aim of the PET2More project is to develop a biotechnological process for upcycling PET plastic monomer waste. To this end, previously unknown and unavailable decarboxylase enzymes for the conversion of terephthalic acid and 2,5-furandicarboxylic acid into valuable chemicals such as benzoic acid and furan-2-carboxylic acid are to be identified, characterized and optimized by means of enzyme engineering.
PH Office - Criterions for energy-efficient office buildings
The passive house standard and energy-efficient building technologies are getting increasingly important for office buildings, too. However, standardisation is not completed on the same level as known from the residential building sector. The project at hand brings in definitions and makes a suggestion on a standardised calculation method for office buildings in passive house quality.
PH-Academy - "Passive house of the future" Academy platform for knowledge transfer between building developers
Builders and developers of residential buildings in low energy and passive house standard were invited to an academically moderated direct exchange of experiences, to turn them into competent users of new technologies.