Living lab Waldviertel: 100% renewable energy

“We help people shape their (energy) future”. The living lab 100% RES Waldviertel has set itself the goal of developing solutions to supply the Waldviertel with 100% renewable energy sources and to become climate-neutral by 2035. To achieve this, the results developed in the EneuerbaresWald4tel flagship project are being put into practice by the 100% RES Waldviertel innovation lab.

Living lab cells4.energy (Burgenland): Regional energy cells as multi-energy living labs for a rapid system transition

The project objective of the initial project, which is to be achieved as part of this overall concept, is the development and implementation of a regional energy cell concept that is capable of ensuring a secure and reliable energy supply based on 100% renewables across all sectors as a core component of the future energy system.

LoPQ - Local Heat together - Pioneer Quarters for Neighborhood Heat and Colling Supply and Quarter Renovation

LoPQ develops integrated supply and renovation concepts for urban quarters by coupling anergy networks with renewable energy sources. From 20 initial sites, five pilot quarters will be selected for detailed feasibility studies, with one final quarter proposed for a follow-up R&D&I project. The interdisciplinary consortium combines expertise in technology, geosciences, and economics to create inaugural, holistic operating and financing models. Scaling these solutions addresses an investment volume of €1.9 billion and a CO2 reduction potential of approximately 25,600 t per year.

LooPi - the autonomous unisex plant-based urinal for public spaces

Application of the prototype in the operational environment for a period of 20 months. Technical monitoring thoughout the cycle of seasons, user interviews concerning satisfaction, evaluation of the potential use of LooPi material streams as soil conditioner for organic farming. Results serve the development towards market maturity.

MADOKLI - Mannersdorf climate fit! Using local resources to combat and adapt to climate change for a climate-neutral neighbourhood

Development of a climate-neutral neighbourhood by integrating previously unused heat sources and sinks, such as the underground Mühlbach stream, to supply municipal buildings, to establish use-oriented water management and to develop solutions for climate-friendly outdoor spaces in the centre of Mannersdorf am Leithagebirge.

MARGRET - Measurement of greened/non-greened objects for the adaptation of calculation models

Development of measurement methods to determine the influence of greening measures on greened versus non-greened reference objects with contemporary building standards under uniform framework conditions. Proposals for adaptations of calculation models or standards to e.g. enable an integration in the energy performance certificate.

MARGRET Bioshade - Building Physics-Based Quantification of the Shading and Cooling Performance of Building Greening

The MARGRET Bioshade project investigates the impact of building greening on energy efficiency, climate adaptation, and building assessment. Its focus is on quantifying the shading performance of vertical greening systems, analyzing the water balance and evaporative cooling effects of different greening solutions, and developing standardized parameters for planning, simulation, and technical guidelines.

MEIDLINGER L Demo

The MEIDLINGER L modular rank shelf system is intended to enable the widespread use of façade greening in existing urban areas. In combination with thermal refurbishment of existing buildings as well as greening, PV, water management, conversion of street space and mobility with the integration of resilient energy infrastructure as well as the application of a customized financing model and a service offer for multiplicability.

MeteoR – mechanical-thermochemical process combinations for the recycling of fine fractions from waste treatment facilities

In waste treatment plants large quantities of fine fractions are generated. Due to their heterogeneity and properties, these fractions are currently not used although they contain a whole range of materials that represent valuable resources. The aim of the project MeteoR is to enable the utilization of all components (mineral, metallic, and combustible) of fine fractions by combining mechanical and thermochemical processes, to close material cycles and to significantly contribute to the further development of the Austrian circular economy and the reduction of CO2 emissions.

Micro Gas Turbine

MidSKliN – Minimally invasive dynamic rehabilitation taking into account climate change adaptation, CO₂ emissions and grid compatibility

The project aims to develop and demonstrate minimal renovation measures at the building envelope level using modular, technically easy-to-implement building technology solutions for decisive CO2 reduction and climate adaptation in urban building stock.

Mind the gap - Development of a Directional Drilling Method for Shallow Geothermal Energy

The project develops a miniaturised directional drilling method enabling geothermal boreholes to be installed beneath existing buildings, addressing a major gap in densely built urban areas. By drilling from accessible edge zones and keeping all probes on private land, permitting procedures are simplified and public-space interventions minimized. The study assesses technical, regulatory and economic feasibility and forms the basis for subsequent prototype development.

Mission2030 – Climate-neutral Smart City Klagenfurt 2030

As Austria's only city, Klagenfurt is part of the EU Cities Mission 2030. Along with Rome, Barcelona, Laibach and other European cities, the Carinthian state capital has set itself the goal of being climate neutral by 2030. A project that is not utopia, but quite realistic! An essential component and backbone of this mission is the Austrian Pioneer Cities Program.

Mistelbach climate neutrality roadmap

In January 2024, the municipality of Mistelbach in Lower Austria unanimously decided to draw up a climate neutrality roadmap for 2040. The municipality is thus continuing on its path towards climate neutrality and can build on numerous completed activities.

Modular and standardised passive houses in solid timber construction

Concerning to an accurate and adaptable construction of 2 to 4 storey solid timber houses with the characteristics of a passive house, a digital construction and dimension system will be developed. The system which contains standardised modular ecological detailed solutions enables an exact dimensioning and installation of passive houses by small carpentering companies.

ModularHeatNet

The aim of the project is to support Ottensheim in phasing out fossil fuels and deve­lo­ping a "climate-neutral" heat supply. As a result, the community will receive a solid decision-making basis based on the technical, economic, organizational, and environ­mental comparison of the examined heat supply approaches.

MokiG: Monitoring for climate-neutral buildings

The aim is to develop and implement an innovative monitoring concept to demon­strate the achievement of climate neutrality in buildings. A central element here is the integration and linking of various data sources. The basis for this is a data mesh structure, artificial intelligence and the creation of digital twins. Finally, the metho­dology will be tested on real buildings and discussed with users.

Multi-WP – High-efficiency multivalent heat pump concepts for the thermal use of external air with geothermal storage

Optimization of multi-WP systems consisting of air-source heat pumps and geothermal storage with regard to increasing flexibility and efficiency from 30 kW for individual buildings as well as neighbourhood solutions and addressing aspects such as PV utilization optimization, mode of operation, utilization conflicts and noise pollution from air-source heat pumps. The project will establish the use of the heat source external air in combination with seasonal storage as a particularly efficient alternative for heating, cooling and hot water supply.

NEB Resources - Potentials in the Existing Urban Fabric for a Socially Inclusive, Circular and Climate-Just Matzleinsdorf

NEB Resources collaborates with residents to develop a feasible and politically supported transformation concept for a socially inclusive, circular, and climate-friendly Matzleinsdorf neighborhood in Vienna's Margareten district. Co-research, temporary interventions, and prototypes activate material and immaterial resources, thereby transforming physical spaces and social relationships.

NEB Strobl - NEB-compliant development of the "Fürstenberg – Living Together" neighborhood in the municipality of Strobl

Implementation of the New European Bauhaus (NEB) goals for neighborhood development in rural areas, using the model district "Fürstenberg" in the municipality of Strobl as a case study, and the development of an evaluation tool for NEB neighborhoods.