Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
IEA EBC Annex 82: Energy flexible buildings towards resilient low carbon energy systems
In the future, buildings and building clusters should be able to provide energy flexibility services for different types of energy systems. The project increases knowledge about the obstacles and motivation for the stakeholders involved. Their constructive engagement is a key to making the energy flexibility of buildings a value for the resilience of future energy networks.
KLARA Amstetten: Klimaneutralitätsfahrplan Amstetten – Roadmap to Action
For the first time, goals for a climate-neutral Amstetten are defined and the necessary climate protection and climate change adaptation measures are developed and fields of action are prioritised.
The Box - Thermal High Performance Decoupling - Next Generation Thermal Break Technology
The project pursues the overall strategic objective "solution of the problem-inducing heat bridge". For this purpose, the thermal bridging losses should be reduced by the factor of 15 in contrast to the state of the art. The significant increase in efficiency should rely on existing system solutions, but incorporating a new holistic view in terms of construction, geometry and materials.
EMA Mikro-Makro-Link
Focus of the project was the harmonisation of disclosure reqirements to statistical agencies regarding material and energy consumption, environmental investments and expenditure with the IFAC guidance document on environmental management accounting and the GRI guideline regarding sustainability performance indicators.
Site certificate
Possibilities and requirements of transferring the Swiss “2000-Watt Site” certificate to Austria
Energy2POG - Hybrid Energy Cluster Pogusch - Renewable energies and cost-efficient operation
The aim of the project was the design, optimisation and demonstration of a hybrid energy supply system as well as optimised material flows for a restaurant and hotel business in an exposed location. The concept allows the integration of material flows into the heat and energy supply system.
IEA Wind Energy Systems (Wind TCP)
The mission of the Wind TCP is to stimulate co-operation on wind energy research and development and to provide high quality information and analysis to member governments and commercial sector leaders. The focus lies on technology development and deployment, as well as market and policy instruments.
PV4residents – Innovative Finance Service and Business Model for PV Power Plants of Multiple Dwellings with On-site Use of Electricity
The aim is to develop a business model, which enables a stronger penetration of PV plants on multiple dwellings with self-consumption of produced electricity by the residents. Involvement of the municipality allows to deliver surplus electricity for their needs. Basis of the business model is an analysis of the technical, legal, administrative, user related and economic barriers with participation of stakeholders and to identify best practice solutions.
Villab – Exploration of a Villach innovation laboratory for the cooperative development of sustainable neighbourhoods
The "Villab - Probe" project serves to check the feasibility of an urban innovation laboratory to accelerate the transformation of Villach districts towards climate neutrality. Assuming positive feasibility, the cooperation with relevant stakeholders will be deepened and a business plan drawn up for a future innovation laboratory.
"gugler! build & print triple zero" - subproject 6: Integration of the C2C production into the flagship project Gugler
Print and media production at the media and communications company gugler GmbH are currently being optimized according to Cradle to Cradle (C2C) criteria. The goal of this subproject is to allow the demands of a C2C production process optimized for exchange with biological cycles to be included into the general planning of the new production building of the company, a pilot project within the "building of tomorrow" program line.
DiCYCLE - Reconsidering digital deconstruction, reuse and recycle processes using BIM and Blockchain
DiCYCLE aims at identifying, analysing and mapping current End-of-Life processes in the building industry, as well as optimizing those for digitalization, using BIM, Blockchain and Smart Contracts. The goal is to enable sustainable digital planning, construction and deconstruction workflows for reuse and recycling of building materials and components along the life cycle.
IEA EBC Annex 83 - Positive Energy Districts
A positive energy district (PED) is an urban area/neighbourhood that is able to generate more energy than it consumes and is agile/flexible enough to respond to energy market fluctuations. This is where the IEA-Annex 83 and commissioned leading Austrian research institutions come in to collect, systematise, synthesise and process the knowledge and experience of the international scientific community on PEDs in a form that is understandable for practitioners.
Integration of decentralised renewable energies in existing fossil district heating grids
Analysis of potentials as well as technical / economical and organisational solutions to integrate decentralised heating power production from renewables into existing fossil heating grids.
PROJECT(_)SPACE_ BUILDING_ FUTURE
Knowledge transfer, communication and discussion of the results of the Building of Tomorrow programme in the fields of architecture, planning, construction and companies in the building industry.
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.
Guideline for logistic systems and resource management for renewable resources in Burgenland
The project on hand is applied in the Austrian federal state Burgenland. It investigates possibilities to cover the future biomass demand of the county with resources from the county.
Climate neutrality roadmap Klosterneuburg
Klosterneuburg is located between the Vienna Woods and the Danube floodplains, a city with a high proportion of green and recreational space while being close to Vienna. This location makes Klosterneuburg an interesting case study for researching climate neutrality – particularly in the areas of CO₂-emissions-free commuter transport, climate-friendly services, and CO₂ sequestration through forestry.
NNATT - Sustainable use of excavated materials from civil engineering and tunnelling using sensor-based technologies
The holistic system developed in the NNATT project for the sustainable utilisation of excavated materials starts with the geology and extends through the construction process to recycling. With the help of sensor-based real-time analyses and an AI-supported decision matrix, excavated materials are separated and further developed into customised products.
e80^3-Buildings - Sub project 1: Basics
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.
Development of an innovative business model for large-scale solar thermal plants for industrial and commercial companies
The current project has the aim to develop an innovative business model for large-scale solar thermal plants (> 500 m² collector area) for industrial and commercial companies. This business model offers the energy customer a contractually binding solution in a time frame of 3 to 5 years; also, the energy delivery costs are lower compared to conventional sources.