Suchergebnisse
Reallabor Weizplus - Reallabor climate-neutral region Weizplus
Clarification of relevant questions for the potential establishment of a real lab in the region of Weizplus, which aims at a 100% supply of the region with renewable energies by 2030. The content-related technological focus of the activities of the future real lab is on all energy-relevant sectors (heating, electricity, cooling) applied to the focal points of energy efficiency and replacement of fossil energy in buildings, in trade and industry as well as mobility.
Climate-School-Life - Preparation of the climate-neutral educational campus in Gratwein-Straßengel
The project aims to start the transformation process of the educational campus of the market town of Gratwein-Straßengel into climate-neutrality. The need for the expansion and modernisation of the elementary school forms the central part of this development. The project provides an integrated district concept for the four central infrastructure topics of the project: urban development, architecture, mobility and energy. Participation processes of the population and innovative financing models are further components of the exploration.
#EEG++ Digital Energy Communities Optimized
The project aims to develop an innovative energy system for plus-energy neighborhoods by integrating advanced photovoltaic installations, IoT technology, and energy communities to maximize the self-consumption of renewable energy while ensuring economic efficiency and user-centricity.
Urban Sky - Satellite-based planning and analysis applications for climate-neutral and resilient cities
The project investigates how satellite data can support cities and municipalities (e.g. urban development, spatial energy planning, mobility transition). Based on demand and potential analyses, service concepts will be derived that integrate existing data and tools with satellite applications. The results will be presented in a study and a Space4Cities implementation roadmap.
AnergieLeichtGemacht - Development of Scalable Implementation Models for Geothermal Anergy Networks to Decarbonize the Building Sector
The project develops standardized technical, organizational, and financial implementation models for anergy networks to enable sustainable heating solutions in cities and municipalities. By identifying suitable settlement typologies, analyzing existing framework conditions, and engaging stakeholders, scalable solutions are created. The goal is to reduce planning and implementation barriers and facilitate investments in local anergy networks.
IntEGrity - Integration and Diffusion of Energy Communities
IntEGrity aims at fully integrating energy communities in the existing energy landscape in order to push for efficient diffusion and to use the potential of the positive contribution to energy awareness, efficiency and climate neutrality. In order to fully enable integration, the project explores innovative developments on three levels - social level, energy community level and service level.
FavoriteFlows – Innovative solutions for water and energy cycles in buildings for a climate fit city
Demonstration of detailed planning work and implementation of water cycles (building-integrated constructed wetland wastewater treatment) and energy cycles (wastewater heat exchanger) on a large residential apartment development for climate resilience, resource efficiency and high living standard.
Co-Housing Gutenberg: Integrated Sector Coupling for Shared Living, Energy, and Mobility
The "CoHoGutenberg" project aims to establish a sustainable co-housing model in the rural community of Gutenberg, Styria, by combining sufficiency principles with state-of-the-art energy technologies.
# Murau : Real-World Laboratory of energy transition for inner-alpine regions
Inner-alpine regions are rich in the natural resources water, sun, wind and biomass. This study investigated how the Murau region can become a stable and fail-safe, renewable 100% region and how it is possible to supply the energy-hungry conurbations as a needs-based energy export region.
Reallabor 100% renewable energy Waldviertel
Under the motto "Always one step ahead", the aim is to develop a content-related and economic implementation concept for a "Reallabor 100% erneuerbare Energie Waldviertel".
REal - The laboratory for Integrated Regional Renewable Energy Systems
In the REal project, a holistic, scalable and user-friendly concept was created, whereby sector-coupled, municipal energy systems with 100% renewable energy can be implemented, considering all necessary aspects from planning to operation, reducing design costs and accelerating an Austria-wide implementation.
MURREAL: Murtaler Reallabor - On the way to 100% renewable energy by 2040
MURREAL connects the actors of the industrial region Murtal with specialists in the field of high tech and materials with the raw material and energy sector, service providers and research and development. In this exploration for a real laboratory, synergies had been worked out and business models had been built up to consistently take the path towards 100% renewable energy and climate neutrality by 2040.
LOW TECH innovation-lab - real laboratory for the transformation to climate and resource-saving energy regions with innovative LOW TECH solutions
LOW TECH innovation-lab aims to set up an innovation laboratory in which innovative model solutions are developed, tested and widely rolled out in cooperation with suitable pilot regions on the basis of an optimized approach with regard to the use of technology on the one hand and the potential of the circular economy, local environmental resources and social innovations on the other.
REGOreal - 100% Renewable Energy Region: Local Energy Common Good Economy in real laboratories for networked energy and mobility cells
In REGOreal, the exploration for a 100% renewable energy region in the area of Retz-Horn-Krems-Tulln (Lower Austria) and Mallnitz (Ktn) is taking place. There are four focus topics: 100 Renewable Energy Communities (REC), 1.000 building renovations, 10.000 energy exporters (in the sense of employees who carry the approach into their private environment) and 100 Mio. km of sustainable mobility with extensive use of IT for the development of local integrated energy systems (IES) to integrate a colorful mix of different actors and objects.
DW² - Thermal improvements on diaphragm walls
New materials and installation methods for diaphragm walls will be investigated in laboratory and field tests in order to improve the thermal properties of the construction elements. Additional numerical and ecological aspects are considered to ensure an energetic enhancement of underground constructions such as underground garages or thermal energy storages.
ÖKO-OPT-QUART - Economically optimized control and operating mode of complex energy networks of future city districts
In the project ÖKO-OPT-QUART energy-based, economic and control-orientated models will be developed in order to simulate the operating mode of complex, sustainable energy networks in city districts. For an exemplary configuration these models will be combined to an overall model which allows a realistic economic comparison of different control strategies. The final goal of the project is the development of a method for the systematic design of cost-optimized, predictive control strategies for complex energy networks in city districts.
TANZ - Exploration of a regional living lab: Tourism as an opportunity for the energy transition in Pinzgau
Exploration for a regional living lab to accelerate Austria's climate neutrality in 2040 in the tourism region of Pinzgau. Based on numerous preliminary works, model solutions (“Realtests”) for the innovation fields of sector coupling, energy communities and sustainable heating solutions were designed, the organisational structure of the living lab is developed and stakeholders were actively involved.
Move2Grid – Implementation of regional energy-supply-concepts by hybrid coupling
Based on the results of the national-funded exploratory projects called “Smart Exergy Leoben”, and “Energy Sponge Bruck”, the present implementation project aims at analysing how local, renewable resources support the supply of electric mobility in Leoben in the long term and to integrate it into the municipal distribution grid in a good economic sense.
Heat Harvest - Harvest of urban solar excess heat from buildings and surfaces to avoid summer overheating in cities
"Harvest" of solar urban excess heat from building surfaces, sidewalks, streets and squares to avoid urban heat islands by lying flat absorber pipes, which are then fed into geothermal probe storage tanks for later use as a source for heating buildings.
Innovation lab act4energy
The Innovation Lab act4energy is set up as an innovation laboratory project. Its focus is to solve the problems of renewable energies integration with a focus on photovoltaic power paired with local consumption, linked to the the high fluctuation of renewable energies.