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.

ReSpace – Reclaiming Spaces

ReSpace is developing an AI-based model for identifying, categorizing, and activating sealed areas. Existing data sources (aerial and satellite images, mobile network data, land registry entries) are integrated and enhanced with dynamic analysis to derive evidence-based recommendations for action.

DieWärmePioniere - Participatory climate transformation roadmap as basis for a demo district in the gas-supplied Kahlenbergerdorf

Development of a transformation roadmap for the decarbonization of a neighborhood and implementation of a subarea. Securing acceptance of the project and raising awareness through an active participation process of the population and the establishment of an energy community for heat supply.

# 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.

Beyond - Virtual Reality enabled energy services for smart energy systems

The Beyond project addressed two different energy services through the interaction of various technologies: state-of-the-art virtual reality (VR), the Internet of Things (IoT), energy simulation and machine learning (ML). Energy service 1 immerses VR users in energy-efficient and sustainable building design through an educational VR game, while energy service 2 improves the maintenance of building systems, particularly heating, ventilation and air conditioning (HVAC) systems, through the application of ML models for predictive maintenance.

Vilipa - Visible light based Person and Group Detection in existing buildings

Zur Reduktion des Energieverbrauchs von Gebäuden können Belegungserkennungssysteme einen großen Beitrag leisten. Dieses Projekt zeigt die Machbarkeit des Erkennens von Personen anhand der Reflexion von sichtbarem Licht, hervorgerufen durch die Person selbst, demonstriert, wobei die bestehende Beleuchtungsinfrastruktur zur Personenerkennung ohne Datenschutzbedenken eingesetzt werden kann. Der realisierte Ansatz ist sowohl kostengünstig als auch unaufwändig hinsichtlich der Installationskosten.

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.

ExTra - ExergyTrafos for heating and air conditioning through district heating

As a contribution to the reduction of CO2 emissions, the project aims at upgrading existing heating networks by adding new devices, so-called exergy trafos, to the heat-exchanging transfer stations. These are driven by district heat and provide heating and cooling, as well as a reduced return temperature, as a service.

BIMpeco - Environmentally relevant product data in collaborative BIM environments

Construction products can pose a risk to the environment and health due to their pollutant content or releases. In the BIMpeco project, workflows and data structures for digital information management of this environmentally relevant product data are developed. For this purpose, the new ISO standards ISO 23387 and ISO 19650-1 are tested and synchronized with established process flows. The project results will be made available on an open-source basis and can be integrated into any Common Data Environment (CDE) that complies with the standards mentioned. The BIMpeco project is the first to lay the foundations for product information management of environmentally relevant properties in the CDE, covering the entire lifecycle and supply chain.

GLASGrün - Regulation of climate, energy demand and comfort in GLASS buildings through structurally integrated vertical GREEN

Development of vertical vegetation systems for summergreen shading of glass facades of food retail and commercial areas. GLASGrün generates quantitative data on energy and microclimate balance and qualitative data on user perception. The results are guidelines for scalable and transferable constructive solutions with maintenance and management plans.

GreenDeal4Real - Improving the thermal comfort in mixed-use areas through cost-effective green infrastructure

In Vienna's 22nd district, a mixed-use construction project was used as an experimental space to simulate the effects of green structures and analyse their implementation in a real planning environment. The simulations, the planning laboratory and close cooperation with the developer made it possible to take microclimatic effects into account as early as the planning stage and to optimally compensate for the negative effects of additional sealing through greening.

sustAIn4Build - AI competence for sustainable building management in climate neutral cities

The objective of the project sustAIn4Build is to increase energy efficiency and sustainability in the building sector by using artificial intelligence (AI). Industry-specific training programs support Austrian companies to develop a workflow for integrating AI technologies into their processes, enabling them to develop resource-saving, cost-effective and sustainable solutions. This strengthens their competitive­ness and contributes to the achievement of European decarbonisation goals.

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.

Sozial100%Erneuerbar: 100% renewable heating and cooling supply in social housing - the demonstration project Käthe-Dorsch-Gasse

100 % renewable (on-site) heating and cooling supply in social housing while achieving good living comfort. Implementation, monitoring and optimisation of an overall heating and cooling system that has not yet been implemented in this combination (especially in social housing).

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.

CoolAIR - Predictive control of natural nighttime ventilation and daylight-optimized shading for passive building cooling

Natural nighttime ventilation and daylight-optimized shadowing are high potential approaches to efficiently and economical cool buildings. Nevertheless, the full potential cannot be acquired, since, if at all, such behavior is manually initiated by users. Goal of this project is the development of an automated, self-learning system that can assess the full cooling capabilities and establish an alternative to conventional air conditioning systems.

Ice-storage NEW - New economical ice storage concept for optimized heat storage using heat pumps and peak use of wind power

Development of a technically and economically optimized new ice-storage concept as a thermal wind power peak storage and to improve the performance of heat pumps as a contribution for peak smoothing of the electrical load profile.

Urban cooling demand in Austria 2030/2050 (UKÖ 2030/2050)

Systematic processing of the increasing cooling demand and presentation of the geographical location of the cooling demand in Austria. The result serves as a decision-making aid for the development of climate protection measures and climate change adaptation strategies as well as an estimate of future cooling demand.

Renewable resources in the building sector

Investigation of factors which support and hinder acceptance: Technical, legal/political and organisational levels considered, focus on innovative solutions with high market potential, thematic focal areas: straw bale building, surface treatment, acoustic and thermal insulation