Suchergebnisse
TEA-PUMP – Techno-economic Analysis of Thermoelectric Modules for Efficiency and Performance Enhancement in Heat Pumps for Residential Buildings
The TEA-Pump project explores the innovative use of thermoelectric elements (TEM) in compression heat pumps to enhance their efficiency and performance. Through a comprehensive techno-economic analysis, promising heat pump (HP) configurations for use in urban multi-family housing are identified. The project makes a significant contribution to the decarbonization of heating and cooling supply and supports the development of climate-neutral cities through energy-efficient, future-oriented heat pump technologies.
TOPS – Topology-optimised reinforced concrete slabs with digital formwork and reinforcement
The TOPS project is investigating material-efficient ribbed concrete slabs, which save up to 50% of the concrete used in conventional flat slabs by topology-optimisation. A 'file-to-factory' process enables the automated production of formwork and reinforcement using digital technologies. The construction method reduces CO₂ emissions and contributes to the decarbonisation of the construction industry.
Abwärme_4_Kapfenberg - 100 % industrielle Abwärmeauskopplung Kapfenberg
The project aims to explore the feasibility of maximizing industrial waste heat extraction into the district heating system of the municipality of Kapfenberg to foster the defossilization path.
V-Form – Manufacturing unreinforced vaulted concrete floors with variable pneumatic formworks
V-Form is working on the development of vaulted concrete floors in terms of structural design and building physics, as well as on a new formwork system. Thanks to the efficient shell construction, around 70% CO2eq-emissions can be saved compared to reinforced concrete flat slabs. The reusable and variable pneumatic formwork system aims to enable the economical production of the double-curved concrete shells.
Favorite Facades Reuse
The exploratory project "Favorite Facade ReUse" has set itself the goal of renovating and thermally upgrading buildings with curtain facades with a maximum proportion of reuse and the greatest possible protection of the residents. The authenticity of the building is preserved, and CO2 emissions are minimized.
BOSS - Building Energy Systems on causal reasoning
The project develops novel Causal AI methods for automated fault detection in buildings. It aims to derive semantic structures from time series data and transparently model cause-effect relationships. This provides the foundation for scalable, explainable FDD solutions to reduce energy consumption and emissions in the building sector.
SIMPLE AD Evaluator - S.I.M.P.L.E. Sustainable Integration Modeling and Predictive Leveraging Evaluator
The SIMPLE AD Evaluator fills an existing gap in sustainable local planning by providing a low-threshold and collaborative evaluation tool for early planning phases. By linking questionnaires with System Dynamics models, the tool delivers well-founded decision-making foundations and customized sustainability checklists. This supports municipalities, project developers, and decision-makers in achieving a strategic and cost-efficient sustainable transformation from concept to implementation.
Kimoni – Artificial Intelligence for Monitoring the Performance of Green Infrastructure
Kimoni develops an AI-based tool for high-resolution analysis and assessment of Green Infrastructure for climate change adaptation. By combining satellite and geospatial data with machine learning, Kimoni provides a cost-efficient and scalable solution to comply with the EU Taxonomy and optimize climate-friendly investments.
BIOCHARm - Assessing the Potential of Biochar in Construction as a Contribution to Climate Neutrality
The project investigates the potential and limits of the use of biochar in the Austrian construction sector. The participating organisations gain valuable insights into the availability and suitability of biogenic material flows, the possible uses of biochar and the possibility of storing atmospheric carbon in the construction sector.
ECEE Climate Positivity
The ECEE Climate Positivity project aims to develop a climate-positive, scalable energy concept for commercial buildings. Through the innovative combination of building-integrated photovoltaics, component activation, and intelligent energy management, the project seeks to reduce CO₂ emissions, lower operating costs, and establish new business models for sustainable construction.
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.
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.
BIPV-Booster - Game changer for façade-integrated PV systems: Development of proof-free constructions regarding fire protection
The central result of the project will be the development of a catalogue of “proof-free constructions” with regard to fire protection for façade-integrated photovoltaic systems, particularly for the more difficult case of high-rise buildings. These constructions will be defined in the project and tested in fire tests. The fire tests are to be supplemented by electrical and material-related module tests before and after the fire tests.
AI4FM - Artificial Intelligence for Facility Management
AI-based anomaly and fault detection in buildings. Digital twins of buildings with simulation models for testing and optimizing rule-based fault detection methods. Mining of the recorded time-series data from existing Building Management Systems to train Machine Learning models for fault detection.
RCC2 – Reduced Carbon Concrete 2: Ökobilanz heizbarer Schalung für CO2-reduzierten und klimaneutralen Beton
Experimentelle Entwicklung innovativer Rezepturen CO2-reduzierten Betons sowie beheizter Schalung zur Unterstützung der Frühfestigkeitsentwicklung bei winterlichen Temperaturen.
Schriftenreihe
26/2024
T. M. Romm, J. Flaszynska, M. Härtel, M. Kopp, D. Ehrenreich, T. Meinschad, P. Kasal, T. Belazzi, J. Horvath, M. Schwarzbauer, L. Kujawa, R. Pamminger, M. Löffler, F. Denk, H.-J. Zeiler, J. Hörler, J. Roth, A. Preuß, T. Groeneveld
Herausgeber: BMK
Deutsch, 71 Seiten
Downloads zur Publikation
BIOCHARm - Potenzialanalyse des Einsatzes von Pflanzenkohle im Bauwesen als Beitrag zur Erreichung der Klimaneutralität
Das Projekt untersucht das Potenzial und die Grenzen des Einsatzes von Pflanzenkohle im österreichischen Bausektor. Die beteiligten Organisationen gewinnen wertvolle Erkenntnisse über die Verfügbarkeit und Eignung biogener Stoffströme, die Nutzungsmöglichkeiten von Pflanzenkohle sowie die Möglichkeit, atmosphärischen Kohlenstoff im Bausektor zu speichern.
TheSIS - Thermische Sanierung mit Innendämmsystemen - Untersuchung und Entwicklung von feuchtesicheren Lösungen
Entwicklung von innovativen Lösungen für die Renovierung von Gebäudehüllen mit Innendämmung mit Focus in der hygrothermischen Optimierung einer anstrichförmigen feuchteadaptiven Dampfbremse. Als Ergebnis werden die bei der Ausführung von Innendämmsystemen vorhandene Hemmnisse reduziert und damit die energetischen, komfortbezogenen und wirtschaftlichen Vorteile nutzbar gemacht.
fERNkornSAN – Dekarbonisierung und Sanierung mit erneuerbaren Rohstoffen des Gründerzeitgebäudes Fernkorngasse 41
Am Beispiel des Gründerzeitgebäudes in der Fernkorngasse 41, 1100 Wien werden technische Herausforderungen und Fragestellungen in Bezug auf den Ausstieg aus Gas und Öl sowie der Anpassung an den Klimawandel untersucht. Ein besonderes Augenmerk liegt auf ökologischen Baustoffen und hocheffizienten Technologien. Die Ergebnisse sollen als Grundlage für den Einsatz bei weiteren Projekten dienen.
Vitality City - Ganzheitliche Energiestrategien für Städte im Wandel
Energiesimulation von Städten & Gemeinden beliebiger Größe auf Grundlage von Daten aus Laserscanning und Satellitenanalyse (Geodaten), um den dynamischen Energiebedarf und die verfügbaren Energieressourcen zu ermitteln.
IMPACT – Hybrid hydraulic and electric charging of stratified compact hot water
Das Projekt IMPACT entwickelt eine innovative dezentrale Warmwasserspeicher-Technologie für den großvolumigen urbanen Wohnbau. Durch ein neuartiges, flaches Design ermöglicht das System eine hocheffiziente Nutzung erneuerbarer Energiequellen wie Wärmepumpen und Photovoltaik. Ziel ist eine kosteneffiziente, nachhaltige Lösung zur Dekarbonisierung der Warmwasseraufbereitung, die mittels intelligenter Energiemanagement- und Machine-Learning-Methoden optimiert wird.