Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"
Netzqualität bei dezentraler Stromeinspeisung auf Basis erneuerbarer Energieträger
Durch den Einsatz neuer Technologien integriert in dezentrale Stromerzeugungsanlagen basierend auf erneuerbaren Energieträgern soll demonstriert werden, wie diese aktiv zur Verbesserung der Versorgungsqualität in Netzen beitragen können, um damit den weiteren Ausbau von dezentraler Erzeugung zu unterstützen.
Identification of services, wood and non-wood products in sustainable forest management
The ecological, economic and social effects of services, wood and non-wood products on sustainable forest management, the marketing potential and the relevance of sustainable measures are analysed.
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.
Biomasse-Kraft-Wärme-Kälte-Kopplung auf Altholzbasis (Lustenau)
Thermoölkessel - Rauchgasreinigung - ORC-Prozess - Absorptionskältemaschine
ReAssuRe – risk management for re-use of construction components and building technology by non-destructive on-site testing procedures
Risk assessment and insurability is essential for the re-use of functional components in buildings. In the best case, properties of components can be examined before they are removed from the donor building. ReAssuRe identifies suitable on-site testing procedures and establishes a network for the quality assurance of re-use components.
TheSIS - Thermal renovation with internal insulation systems - investigation and development of moisture-proof solutions
Development of innovative solutions for the retrofit of the building envelope with internal insulation with a focus on the hygrothermal optimization of a moisture-adaptive vapor retarder in form of a paint coating. As a result, the moisture hazard related to the implementation of internal insulation systems is reduced and the energetic, comfort-related and economic advantages are made available.
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.
FluccoSan - Circular energy flexibility for resilient, climate-neutral refurbishments
FluccoSan aims to develop innovative and cost-effective refurbishment solutions for the building sector that contribute to achieving the Austrian federal government's climate targets. The focus is on energy-efficient, minimally invasive and socially acceptable measures, so-called “dynamic renovations”. By integrating the circular economy and social science research, these solutions should ensure long-term sustainability and a high level of acceptance among users. Status: ongoing
Wood Plastic Composites - New property profile by refiner fibres
The mechanical properties and thus the application area of wood plastic composites with a wood content > 60 % shall be explicit increased by means of long wood fibres. The realization of a technological direct feeding system in extrusion process will enable an innovation jump of this wood like material.
Maize Cob Board (MCB) - Light weight material from agricultural by-products
Maize cobs accrue as an agricultural by-product can be used for a core material of light weight panels with good material properties and insulation characteristics. The aim was to work out a concept for the production and optimisation of material properties.
Diverse DH Pöchlarn - Diversification strategies for a sector-coupled district heating supply in the municipality of Pöchlarn
The project aims to explore the feasibility of maximizing industrial waste heat extraction into the district heating system of the municipality of Pöchlarn so that the defossilization path can be taken further.
PersonAI - User-Centered AI-based energy services built on personal preference models
Conduct a large-scale, long-term study with 40-50 people to create personal comfort profiles to increase comfort in buildings. The personal comfort profiles will then be fed back into the building control system as input variables in a proof-of-concept.
Natural Dyes for the Textile Industry
New cooperations between agriculture und industry are necessary to ensure the utilization of renewable materials. The project´s focus is upon natural dyes and their application in textile industry. The goal of the project is to create a contact institution which connects various suppliers of diverse plant materials, takes on the processing, and standardising of the natural dyes, and makes a product that can be used by the industry.
PSS-ÖB - Strategies to deal with barriers to the implementation of ecoefficient Product-Service-Systems in Public Procurement
Analysis of factors that support or hinder the implementation of Product-Service-Systems in public procurement, development of strategies to overcome those obstacles and investiga-tion and documentation of available Good-Practice-Examples.
HeinrichBiCool - Climate-positive cooling and biodiversity through intensive greening of buildings
Using the example of an existing building of the University of Graz, currently affected by overheating, the project demonstrates what greening can achieve. Comprehensive monitoring of the indoor climate, building physics, energy requirements and biodiversity before and after the greening measures provides new scientific findings on the actual effectiveness of building greening.
Exploration project “Glangaerten” – development of a climate neutral neighbourhood in Salzburg Maxglan
In the course of the exploratory talks, the concepts for the development of the climate-neutral district will be developed. Basics are being developed for the topics: citizen participation – mixed use – energy – mobility and open space with the aim of realising a sustainable Plus Energy Quarter that brings added value to the district.
Characterisation of material parameters as basis for innovative processing methods and products made of large dimensioned wood aiming at economically sustainable use of Austrian timber resources "XXL-Wood"
Facing the problem of decreasing demand for large dimensioned timber, investigations are carried out concerning certain properties like strength and fibre characteristics. Due to the data it is possible to create a model about the variability of special properties of a stem. Based on the model new concepts for optimised processing and products will be developed.
IEA DSM Task 17: Integration of Demand Side Management, Distributed Generation, Renewable Energy Sources and Energy Storages
The main objective of the proposed Task is to study how to achieve the optimal integration of distributed generation, energy storages and flexible demand, and thus increase the value of distributed generation and demand response and decrease problems caused by intermittent distributed generation (mainly based on RES) in the physical electricity systems and at the electricity market. The Task deals with distributed energy resources both at local (distribution network and customer) level and at transmission system level where large wind farms are connected.
SAGE - scalable multi-agent architectures for facility management and energy efficiency
The SAGE project is developing scalable multi-agent architectures that enable buildings to recognize operational anomalies autonomously and react dynamically to environmental changes. The integration of multi-agent architectures in combination with Large Language Models (LLMs) and the development of a human-in-the-loop approach will optimize the collaboration between humans and machines. These solutions should significantly reduce the energy consumption of buildings and increase user-friendliness.
MaBo - material saving in bored piles - a contribution to reducing CO2-emissions in the construction industry
Development of an innovative method for saving material in bored piles in order to reduce CO2 emissions in the construction industry. By optimizing the construction methods and using alternative materials, the sustainability of the foundation bodies is to be improved.